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WELL INTERVENTION PRODUCTS OVERVIEW
Our strength lies in our experience in
the coil-tubing industry and the
ability to supply innovative solutions
to our customers’ individual tool
requirements. We have the
knowledge and manufacturing
capability to offer unique equipment
solutions; designing and
manufacturing tools to suit our
customer’s needs in a reduced time
frame.
When you place an order with Well
Intervention, we work hard to exceed our
customer expectations.
Customers can expect to deal with
friendly, co-operative staff, who are
flexible in their approach to achieve
high levels of service and support to
help our customers meet their
operational oil field objectives.
Welltools, now known as Reservoir
Group, was established in 2004.
We have developed and
established a solid reputation in
design and delivery of proprietary and
specialized thru-tubing tools for our
local and international markets.
Design
We have the engineering knowledge and resources to offer unique equipment solutions; designing tools to suit our customer’s individual needs. Well Intervention utilises the latest SolidWorks CAD, PDM, and Simulation software to design, manage, and analyse class-leading bespoke products.
Manufacture
Our ever expanding, in-house production facility has a wide range of CNC lathes, milling machines and inspection equipment to manufacture our products under one roof from start-to-finish. We also offer sub-contract machining services to oil and gas related companies.
Products
Well Intervention offers a very comprehensive range of products to suit most downhole coiled tubing needs. Our products are designed with a focus on a simple operation, reliability, and ease of maintenance.
Services
Customers can expect to deal with friendly, co-op- rative staff, who are flexible in their approach to achieve high levels of service and support to help our customers meet their operational oilfield objectives.
WELL INTERVENTION SERVICES OVERVIEW
Well Intervention Services Mission
Well intervention is committed to developing and providing reliable, innovative and cost effective services and
solutions. We will be a market leader by providing a consistently superior level of customer service. We strive
for continuous improvement and to deliver success to both our customers and to our company.
Well Intervention is a specialist in thru tubing
services: a complete solution provider to the global
oil & gas industry. A new name that encompasses
industry-leading knowledge and experience, we
represent a synthesis of well intervention expertise
– from solution design, through tool manufacture
and rental, to expert field service delivery.
Services include; custom mill design, fishing tools
for any specific application, single and two phase
flow modeling, re-stimulation packages, analytical
surface/R+D testing, and extensive contingency
planning. Tool Manufacturing and all-inclusive
International Thru-Tubing Support
Well intervention has been formed by combining
the resources and capabilities of successful inter-
national businesses. It means we are equipped to
form bespoke, single-point solutions that reflect
the unique challenges and complexities of
individual projects. We deliver comprehen- sive
well intervention packages shaped by the unique
technical and commercial priorities of each
customer – and generate new value in the
process.
We deliver efficiency, derived from our ‘one stop
shop’ proposition. We offer reliability, from our
experience and international track record. We
bring assurance, from our commitment to a ‘right
first time’ principle of operation.
Wellvention possesses the experience, the tool
portfolio and the combined knowledge that
encompasses these needs for successful well
intervention. Our team with combined field
experience of over 200 years supports all field
operations, bringing you and your
organization highly skilled workers and vast
technical support for various Thru-Tubing
applications. Wellvention’s tool portfolio is
comprised of over 70 proven quality milling tools
and custom BHA assemblies tailored to both Coiled
tubing and threaded pipe applications.
Product List Standard Coiled Tubing BHA
Coiled Tubing External Slip-Type Connector .......................................................................... 7 Coiled Tubing High-Load External Slip-Type Connector ........................................................ 8 Coiled Tubing Internal Dimple Connector ............................................................................ 10 Coiled Tubing External Dimple Connector ............................................................................ 11 Coiled Tubing Roll-On Connector .......................................................................................... 12 Dual Flapper Check Valves. ................................................................................................... 13 C-Load Hydraulic Disconnect ................................................................................................ 14 Mechanical Shear Type Disconnect ...................................................................................... 15 Pump-Off Disconnect ............................................................................................................ 16 S-Type Motor Head Assembly ................................................................................................... 17 C-Load Motor Head Assembly ................................................................................................... 19
Debris Removal-Jetting & Circulating
Pressure Activated Circulating Sub ....................................................................................... 22 Dual-Acting Circulating Sub................................................................................................... 23 Pump-Out Sub ....................................................................................................................... 24 Annular Flow Sub .................................................................................................................. 25 In-Line Down Hole Filter ....................................................................................................... 26 Jetting & Cementing Nozzles. ............................................................................................... 27 Spincat ................................................................................................................................... 28 Venturi Junk Basket............................................................................................................... 29 Hydraulic Bow Spring Centraliser.......................................................................................... 30
Fishing-Catch & Pull
Lead Impression Block .......................................................................................................... 32 Flow Release GS Spear .......................................................................................................... 33 Flow Release Slick Catch Spear ............................................................................................. 34 Flow Release JDC Pulling Tool. ................................................................................................... 35 Flow Release Slick Catch Overshot ....................................................................................... 36 Bowen Series 10 & 20 Overshots. ......................................................................................... 37 Bowen Series 70 Short Catch Overshots............................................................................... 38 Bowen Series 150 Overshot .................................................................................................. 39 Pick-Up/Bulldog Overshot ..................................................................................................... 40 Flow Release Bulldog Spear ...................................................................................................41 KELO Socket Overshot ........................................................................................................... 42 Snipper/Cutting Overshot ..................................................................................................... 43 ITCO Spear ............................................................................................................................. 44 Tri-Jaw Barbed Grab .............................................................................................................. 45 Magnets. ............................................................................................................................... 46
Product List Composite Plugs & Completion Tools
Bear Claw Composite FRAC & Bridge Plug 3.35” OD ............................................................ 48 Bear Claw Composite FRAC & Bridge Plug 3.60” OD ............................................................ 50 Bear Claw Composite FRAC & Bridge Plug 4.40” OD ............................................................ 52 Flowmaster ............................................................................................................................ 54
Drilling Turbines
Cedar Drilling Turbines. ......................................................................................................... 57
Milling & Cutting Tools
Mills. ..................................................................................................................................... 64 Offset Mills. .......................................................................................................................... 65 Step Mills. .............................................................................................................................. 66 Taper Mills. ........................................................................................................................... 67 FB Mills. ................................................................................................................................ 68 Hurricane Mills. .................................................................................................................... 69 Diamond Impregnated MX Mills. ......................................................................................... 71 Raptor Mills. ......................................................................................................................... 72 Abrasive Cutting Equipment ................................................................................................. 73 Washover Shoes. ................................................................................................................... 74 Hydraulic Under Reamer ...................................................................................................... 75
Surface Gear & Handling Equipment
Hydraulic Jacking Plate .......................................................................................................... 77
Hydraulic Tong Unit ……………………………………………………………………………………………………... 78
Pig Catcher. ........................................................................................................................... 79
Lift Subs. ................................................................................................................................ 80 Coiled Tubing Internal Reamer ............................................................................................. 81 Coiled Tubing Internal Dimpling Tool. ...................................................................................... 82 Coiled Tubing External Dimpling Tool. ...................................................................................... 83 Pull/Pressure Test Sub ........................................................................................................... 84 T’ Type Safety Clamp ............................................................................................................ 85 End of Coil Detector .............................................................................................................. 86
Product List Speciality Tools
Dual Acting Impact Hammer ................................................................................................ 85 Hydraulic Tubing End Locator ...............................................................................................86 Torque Through Knuckle Joint .............................................................................................. 87 Hydraulic Kick Over Knuckle Joint ........................................................................................ 88 Knuckle Joint ......................................................................................................................... 89 Hydraulic Indexing Tool. ........................................................................................................... 90 Mechanical Indexing Tool. ......................................................................................................... 91 Hydraulic Tubing Cutter-3 Blade .......................................................................................... 92 FRAC Tool Memory Gauge Carrier .........................................................................................93 Line Management System. .................................................................................................... 95 Push/Pull Memory Tool. ............................................................................................................ 97 Wellhead Pressure Recorder ................................................................................................ 98
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 8
Coiled Tubing External Slip-Type Connector
Well Intervention Products & Services’ External Slip-Type Coiled Tubing Connector is specially designed for heavy duty Coiled Tubing applications. It provides a reliable method of attaching the Bottom Hole Assembly (BHA) to the Coiled Tubing.
The connector is attached to the Coiled Tubing by means of a slip mechanism which provides resistance to tensional and torsional loads. Pressure integrity is provided by two O-Rings which form a seal on the OD of the Coiled Tubing.
Available for all sizes of Coiled Tubing between 1-1/4” to 2-7/8” OD. Our connectors can be supplied with industry-standard connections or as per customer requirements.
Design Features
• Simple to Install
• High Tensile & Torsional Strength
• Simple Maintenance and Replacement of Parts
• Standard & H2S Service Versions Available
• Anti-Rotation Screws Prevent the Top & Bottom Subs From Backing-Off
• Wide Range of Connector ODs for a Given Coiled Tubing Size for Maximum Flexibility
Notes
• Other sizes & connections available upon request
• Values shown are for standard service tools
Coil OD Tool OD Tensile Yield Torsional Yield Standard Connections
Ø1-¼” Ø1-11/16” 37,500 lbs 590 ft-lbs 1.000” AMMT
Ø1-¼” Ø2-1/8” 76,000 lbs 1,400 ft-lbs 1-½” AMMT
Ø1-¼” Ø2-¼” 115,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø1-½” Ø2-1/8” 76,000 lbs 1,400 ft-lbs 1-½” AMMT
Ø1-½” Ø2-¼” 115,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø1-½” Ø2-7/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø1-¾” Ø2-¼” 61,000 lbs 1,150 ft-lbs 1-½” AMMT
Ø1-¾” Ø2-7/8” 200,000 lbs 4,500 ft-lbs 2-3/8” PAC DSI
Ø1-¾” Ø3-1/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø2.000” Ø2-7/8” 155,000 lbs 3,400 ft-lbs 2-3/8” PAC DSI
Ø2.000” Ø3-1/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø2-3/8” Ø3-1/8” 135,900 lbs 3,400 ft-lbs 2-3/8” PAC DSI
Ø2-3/8” Ø3-3/8” 188,000 lbs 4,600 ft-lbs 2-3/8” PAC DSI
Ø2-7/8” Ø3-½” 114,000 lbs 3,200 ft-lbs 2-7/8” PAC DSI
Ø2-7/8” Ø3-¾” 225,000 lbs 6,000 ft-lbs 2-7/8” PAC DSI
Ø2-7/8” Ø4-¾” 500,000 lbs 17,000 ft-lbs 3-½” IF Pin
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 9
Coiled Tubing
High-Load External Slip-Type Connector
The High-Load External Slip-Type Connector is specially designed for heavy duty Coiled Tubing applications.
The connector is attached to the Coiled Tubing by means of a slip-mechanism which provides resistance to tensile & torsional loads. Pressure integrity is provided by two O-Rings which form a seal around the Coiled Tubing OD.
The High-Load version of this tool had an extended grapple section which effectively distributes the axial load over a larger surface area. This helps to prevent collapse and swelling of the Coiled Tubing under extreme conditions.
Design Features
• High Tensile & Torsional Strength
• Standard H2S Service Versions Available
• Simple Maintenance & Replacement of Parts
• Extended Grapple to Reduce Coiled Tubing Collapse & Swelling
• Anti-Rotation Screws to Prevent the Top & Bottom Subs From Backing Off
• Simple to Install, With NO Removal of Internal Weld Bead (Flashing) Required
• Wide Range of Connector ODs for a Given Coiled Tubing Size for Maximum Flexibility
• Also High-Pressure/ Extreme Temperature (15,000 PSI/ 232°C/ 449.6° F) Available for 1.75” OD Coiled Tubing
Notes
• Other sizes & connections available upon request
• Yeild values shown are for standard service tools
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 10
Coiled Tubing
High-Load External Slip-Type Connector
Tool Specifications
Coil OD Tool OD Tensile Yield Torsional Yield Standard Connections
Ø1-¼” Ø2-1/8” 100,500 lbs 1,600 ft-lbs 1-½” AMMT
Ø1-¼” Ø2-¼” 115,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø1-½” Ø2-1/8” 75,000 lbs 1,400 ft-lbs 1-½” AMMT
Ø1-½” Ø2-¼” 100,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø1-½” Ø2-7/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø1-¾” Ø2-1/8” 28,000 lbs 525 ft-lbs 1-½” AMMT
Ø1-¾” Ø2-¼” 48,000 lbs 900 ft-lbs 1-½” AMMT/td>
Ø1-¾” Ø2-7/8” 200,000 lbs 4,500 ft-lbs 2-3/8” PAC DSI
Ø1-¾” Ø3-1/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø2.000” Ø2-7/8” 155,000 lbs 3,400 ft-lbs 2-3/8” PAC DSI
Ø2.000” Ø3-1/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø2-3/8” Ø3-1/8” 119,900 lbs 2,900 ft-lbs 2-3/8” PAC DSI
Ø2-3/8” Ø3-3/8” 188,000 lbs 3,900 ft-lbs 2-3/8” PAC DSI
Ø2-7/8” Ø3-½” 115,000 lbs 3,100 ft-lbs 2-7/8” PAC DSI
Ø2-7/8” Ø3-¾” 225,000 lbs 6,200 ft-lbs 2-7/8” PAC DSI
Ø2-7/8” Ø4-¾” 500,000 lbs 17,000 ft-lbs 3-½” IF Pin
Ø3-½” Ø4-½” 225,000 lbs 6,200 ft-lbs 2-7/8” IF Pin
Ø3-½” Ø4-¾” 400,000 lbs 12,000 ft-lbs 3-½” IF Pin
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 11
Coiled Tubing
Internal Dimpling Connector
Tool Specifications
The Well Intervention Products & Services’ Internal Dimple Connector provides a reliable means of connecting the Bottom Hole Assembly (BHA) with the Coiled Tubing.
The Internal Dimple Connector can be designed to have the same OD as the Coiled Tubing for running “slick” (Slim-Hole) tool strings or with over-sized bottom sections to confirm BHA has reached surface. Prior to installation, the internal weld bead (flashing) can be removed using Well Intervention Products’ Internal Coiled Tubing Reamer. The connector can then be dimpled on using Reservoir Groups’ Manual Dimpling Tool or any standard hydraulic jig. The dimples allow the connector to effectively transmit both torque and tensile loads.
The dimple connection has comparable strength to that of the Coiled Tubing. The design features dual O-Rings to provide a reliable seal on the Coiled Tubing’s ID. The Internal Dimple Connector can be designed and manufactured to suit any size and weight of Coiled Tubing, with any combination of Tool OD and threaded connection.
Design Features
• Simple Design & Use
• Easily Operated by One Person
• Minimal Maintenance
• Accommodates a Range of Coiled Tubing Sizes
• Sturdy Construction to Ensure a Long Service Life
• Lightweight Alternative to Hydraulic Dimpling Jigs
Notes
• Other sizes & connections available upon request
• Values shown are for standard service tools
Tool OD Coil OD Tensile Yield Torsional Yield Standard Connections
Ø1-11/16” Ø1-¼” x 0.095” w/t 49,000 lbs 690 ft-lbs 1.000” AMMT
Ø1-11/16” Ø1-¼” x 0.145” w/t 45,000 lbs 540 ft-lbs 1.000” AMMT
Ø1-½” Ø1-½” x 0.095” w/t 61,000 lbs 1,000 ft-lbs 1.000” AMMT
Ø1-½” Ø1-½” x 0.075” w/t 41,500 lbs 650 ft-lbs 1.000” AMMT
Ø1-¾” Ø1-¾” x 0.109” w/t 61,000 lbs 650 ft-lbs 1.000” AMMT
Ø1-¾” Ø1-¾” x 0.175” w/t 61,000 lbs 650 ft-lbs 1.000” AMMT
Ø2.000” Ø2.000” x 0.109” w/t 109,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø2.000” Ø2.000” x 0.175” w/t 92,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø2-7/8” Ø2-3/8” x 0.125” w/t 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø2-7/8” Ø2-3/8” x 0.175” w/t 207,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 12
Coiled Tubing
External Dimple Connector
The Well Intervention External Dimple Coiled Tubing Connector is used when the internal surface of the Coiled Tubing is unable to provide a sealing surface, due to pitting from acid or corrosion.
The larger bore of this connector enables higher flow rates and larger drop- ball sizes to be used. The assembly is also useful when an external end connector with a minimal OD is required.
The outer surface of the Coiled Tubing is prepared using emery cloth to provide a sealing surface. Using the Well Intervention External Dimpling Tool, the surface of the Coiled Tubing can be dimpled. The connector is then installed over the end of the Coiled Tubing, and the dimpling screws are tightened into the impressions made from the dimpling tool.
Design Features
• Simple Design
• Internal Reaming NOT Required
• Standard & H2S Service Versions Available
• Simple Maintenance in the Field
• Suitable For All Wall Thicknesses of a Given Coiled Tubing OD
• Allows Full-Bore Flow Through the Connector
• Perfect Solution For Light Applications Such as Nitrogen (N2) Lifting or Fluid Pumping
• Useful Alternative When Internal Connectors Are Unable to Provide a Seal
Notes
• Other sizes & connections available upon request
• Yeild Values shown are for standard service tools
Tool Specifications
Tool OD Coil OD Tensile Yield Torsional Yield Standard Connections
Ø2-1/8” Ø1-½” 63,000 lbs 1,375 ft-lbs 1-½” AMMT
Ø2-¼” Ø1-¾” 63,000 lbs 1,375 ft-lbs 1-½” AMMT
Ø2-1/8” Ø2.000” 63,000 lbs 1,375 ft-lbs 2-3/8” PAC DSI
Ø2-7/8” Ø2-3/8” 63,000 lbs 1,375 ft-lbs 2-3/8” PAC DSI
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 13
Coiled Tubing Roll-On Connector
Tool Specifications
The Coiled Tubing Roll-On Connector provides a reliable means of connecting the Bottom Hole Assembly (BHA) to the Coiled Tubing.
Prior to installation of the Roll-On Connector, the internal weld bead (flashing) can be removed from the coiled tubing using the Internal Coiled Tubing Reamer or with a die-grinder where permitted. The in-line connector is then attached by crimping the Coiled Tubing into the pre-formed channels on the connector body, using a Roll-On Connector Crimping Tool. Pressure containment is provided by O-Rings located between the channels on the connector.
The Roll-On Connector is available for all Coiled Tubing sizes between 1” and 3-1/2” OD. These connectors can be supplied with an OD the same size as the Coiled Tubing to accommodate “slick” (Slim-Hole) tool strings, as well as supplied with industry-standard connections or as per customer requirements. Specialist versions are available upon request.
Design Features • Simple, Robust One-Piece Design
• Standard & H2S Service Versions Available
• Can be Supplied With “Slick” (Slim-Hole) or Over-Sized Bottom Section
• Available for a Wide Range of Coiled Tubing ODs & Wall Thicknesses
• Supplied With Industry-Standard Connections or Client-Specific Connections
• Crimping Rollers Can be Manufactured to Suit Coiled Tubing OD for Specific Applications
Notes
• Other sizes & connections available upon request
• Yeild values shown are for standard service tools
Coil OD Coil OD & W/t Tensile Yield Standard Connections
Ø1-11/16” Ø1-¼” x 0.095”w/t 34,000 lbs 1.000” AMMT
Ø1-11/16” Ø1-¼” x 0.145”w/t 30,000 lbs 1.000” AMMT
Ø1-½” Ø1-½” x 0.095” w/t 55,000 lbs 1.000” AMMT
Ø1-½” Ø1-½” x 0.145” w/t 36,500 lbs 1.000” AMMT
Ø1-¾” Ø1-¾” x 0.095” w/t 64,000 lbs 1.000” AMMT
Ø1-¾” Ø1-¾” x 0.045” w/t 42,000 lbs 1.000” AMMT
Ø2.000” Ø2.000” x 0.095” w/t 115,000 lbs 1-½” AMMT
Ø2.000” Ø2.000” x 0.145” w/t 102,000 lbs 1-½” AMMT
Ø2-3/8” Ø2-3/8” x 0.125” w/t 115,000 lbs 1-½” AMMT
Ø2-3/8” Ø2-3/8” x 0.204” w/t 115,000 lbs 1-½” AMMT
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 14
Double-Flapper Check Valves
Tool Specifications
The Double-Flapper Check Valves provide the primary internal well control barrier within the Coiled Tubing Bottom Hole Assembly (BHA) during “live” well intervention operations.
The Check Valves prevent the wellbore fluid and pressure from entering the Coiled Tubing string while allowing for unrestricted flow through the tool string.
The flapper valves are spring-loaded in the normally closed position but will open fully during circulation to provide a large internal Through-Bore passage of drop-balls.
The two flapper cartridges are easily removable for quick and easy inspection and redress. A high performance elastomeric seal is used within each flapper cartridge for improved sealing performance and reliability. The dual flapper design provides full redundancy for increased safety.
Design Features
• Simple, Robust Construction
• Large, Uninterrupted Through-Bore
• Dual Barrier Design for Increased Safety
• Removable Cartridges for Easy Redress
• Standard & H2S Service Versions Available
• High Pressure & High Temperature Options Available
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
Tool OD Tensile Yield Torsional Yield Standard Connections
Ø1-¼” 25,500 lbs 315 ft-lbs 1.062”-16 UN
Ø1-½” 31,500 lbs 430 ft-lbs 1.000” AMMT
Ø1-11/16” 55,000 lbs 820 ft-lbs 1.000” AMMT
Ø1-¾” 61,800 lbs 690 ft-lbs 1.000” AMMT
Ø2-1/8” 103,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø2-7/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø3-1/8” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC DSI
Ø3-¾” 255,500 lbs 7,250 ft-lbs 2-7/8” PAC DSI
Ø4-¾” 490,000 lbs 17,500 ft-lbs 3-½” IF
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 15
C-Load Hydraulic Disconnect
Tool Specifications
The C-Load Hydraulic Disconnect is an extremely robust, heavy duty, drop- ball emergency release tool.
It allows a stuck Bottom Hole Assembly (BHA) to be detached at a pre- determined point. The inherent strength of the C-Load Hydraulic Disconnect is provided by its` unique grapple design, which also resists bending and vibrational loads.
The C-Load Hydraulic Disconnect offers excellent resistance to impact and torque loading, and is suitable for heavy duty applications including below jars in a tool string, milling, under-reaming, cutting & perforating assemblies. The tool is also fitted with a rupture disc facility in order to re-establish circulation in the event of a plugged tool string.
The tool is activated by a drop-ball via the work string and applying a pre-determined amount of pressure to activate the release mechanism. The upper portion of the tool can then be recovered from the well, leaving an internal “GS” profile for subsequent fishing operations.
Design Features
• Simple & Effective Emergency Release Joint
• Torque-Through Feature
• Standard Internal “GS” Profile
• Variable Shear Ratings
• Easy Field Redress & Set-up
Notes
• Other sizes & connections available upon request
• Values shown are for standard service tools
Tool OD Tensile Yield Torsional Yield Standard Drop Ball Sizes
Pressure Rat- ing
Standard Connections
Ø1-¼” 25,000 lbs 310 ft-lbs Ø3/8” 5,000 psi 1.062”-16UN
Ø1-½” 31,000 lbs 430 ft-lbs Ø7/16” 5,000 psi 1.125”-10 SA
Ø1-11/16” 51,600 lbs 750 ft-lbs Ø9/16” 5,000 psi 1.000” AMMT
Ø2-1/8” 86,000 lbs 1,500 ft-lbs ؾ” 5,000 psi 1-½” AMMT
Ø2-7/8” 170,750 lbs 3,900 ft-lbs Ø7/8” 7,500 psi 2-3/8” PAC DSI
Ø3-3/8” 200,000 lbs 5,200 ft-lbs Ø1-¼” 5,000 psi 2-3/8” PAC DSI
Ø4-¾” 391,000 lbs 14,250 ft-lbs Ø1-¾” 5,000 psi 3-½” IF
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 16
Mechanical Shear-Type Disconnect
The Mechanical Shear-Typed Disconnect is a simple and effective emergency release tool. The Shear Disconnect can be ran in place of a ball-activated tool, in situations where a drop-ball cannot be used, such as below a motor. It allows a stuck Bottom Hole Assembly (BHA) to be detached at a pre-determined tensile load.
The tool is typically used in fishing applications where a motor is used to “bait” a fish. Once the fish has been engaged with the appropriate fishing tool, an over-pull is applied to shear the Disconnect, again at a pre-determined tensile load, leaving a standard internal “GS”- type profile for subsequent fishing/ jarring operations.
Design Features
• Simple & Effective Emergency Release Joint
• Torque-Through Feature
• Standard Internal Fishing Neck Profile
• Standard & H2S Service Versions Available
• Variable Shear Ratings
• Easy Field Redress & Set-up
Notes
• Other sizes & connections available upon request
• Yeild values are shown for standard service tools
Tool Specifications
Tool OD Max Disconnect Shear value (Brass Screws)
Max Disconnect Shear value (Steel Screws)
Fishing Yield Pressure Rating Standard Connections
Ø2-1/8” 13,000 lbs 19,000 lbs 115,000 lbs 5,000 psi 1-½” AMMT
Ø2-7/8” 30,000 lbs 50,000 lbs 179,000 lbs 7,500 psi 2-3/8” PAC DSI
Ø3-1/16” 30,000 lbs 50,000 lbs 210,000 lbs 5,000 psi 2-3/8” PAC DSI
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 17
Pump-Off Disconnect
The Well Intervention Products & Services’ Pump-Off Disconnect has been specifically designed for use in highly deviated and horizontal well sections.
The tool allows a stuck Bottom Hole Assembly to be disconnected and leaves a standard internal GS profile for subsequent fishing operations. However, this tool differs from standard disconnects as no over-pull is required for activation. This is especially important in long horizontal sections where there is insufficient pull at the BHA to operate the Disconnect. The tool is also equipped with a rupture disc port which allows circulation to be regained if the lower BHA is plugged off.
If a stuck BHA is encountered, a drop-ball is launched into the Coiled Tubing and circulated to the Pump-Off Disconnect. When the ball is seated, an increase in circulating pressure will be observed as the tool is activated. Once the tool has disconnected, normal circulation will be regained and a pressure drop will be visible. The Coiled Tubing can then be pulled to surface as normal.
Design Features
• Flow-Through Capability
• Easy Make-Up/ Break-Out
• Tapered Nose For Self-Aligning
• Rotationally Locked When Made Up
• Upper Lock Nuts Locked in Place by Grub Screws
Notes
• Other sizes & connections available upon request
• Standard & H2S Service versions are available
• Yield values shown are for standard service tools
Tool Specifications
Tool OD Tensile Yield Torsional Yield Activation Drop Ball Standard Connections
Ø2-1/8” 75,000 lbs 1,350 ft-lbs Ø9/16” 1-½” AMMT
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 18
S-Type
Motor Head Assembly
The new standard Well Intervention S-Type Motor Head Assembly (MHA) combines three essential coil tubing BHA components into one compact unit: Dual Flapper Check Valves, Heavy Duty Hydraulic Disconnect and Dual Circulating Sub.
This MHA is now one of the shortest and lightest on the market.
The primary advantage against our standard design, with the length decreased by approximately 30%, is the benefit with rig-up height when restricted. The weight has also been reduced for ease of use. The Dual Flapper Check Valves provide the primary well control barrier within the coil tubing bottom-hole assembly during well intervention operations. The double-barrier, normally-closed configuration prevents the inflow of wellbore fluids to the coil tubing whilst allowing high circulating rates to be achieved. The new Threaded CV assembly is now threaded to the Top Sub which allows assembly and disassembly without any need for a removal tool.
The MHA Hydraulic Disconnect section is an extremely robust, heavy duty, drop-ball release mechanism. It allows a stuck bottom-hole assembly to be disconnected and provides a standard internal GS profile for subsequent fishing operations. The inherent strength of the MHA Disconnect is provided by its unique grapple design which also resists bending and vibrational loads. The new improved design incorporates Release Piston Basket which firmly secures the Release Piston preventing it from falling out.
The Dual Circulation Sub section is a drop-ball activated device, which includes a standard rupture disc port. Improved Circ. Piston design allows the drop ball to seat firmly in tapered pocket making sure the tool will not lose any pressure. The burst disc can be activated to regain circulation if the lower section of the bottom-hole assembly has been plugged off.
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 19
S-Type
Motor Head Assembly
Tool Specifications
Tool OD Tensile Yield (lbs)
Tornional Yield (ft-lbs)
Standard Drop Ball Sizes Pressure Rating
Standard Connections
OAL EFF. Length
2-1/8”
82,000
1,400 3/4” Disconnect
5/8” Circ. Sub Drop Ball
10,000
1-1/2” AMMT Box & Pin
27.075”
2-7/8”
170,300
3,900 1-1/16” Disconnect
15/16” Circ. Sub Drop Ball
10,000 2-3/8” Std. Pac Box & Pin
33.547”
31.297
Design Features
• One of the shortest tools available
• Lighter tool to handle
• Easy assembly
• Tool rated to 10,000 psi working pressure
• Fewer external sections
• Drop Balls up to 1-1/16”
• Optimal disconnecting system
• Torque-through capability
• Extremely resistant to impact loads
• Standard & H2S Service versions available
• Variable shear ratings and ball seat sizes
• Integral Rupture Disc assists regaining circulation
• Captive placement of Disconnect Shear Screws ensures security under vibrational loads
Notes
• Other sizes and connections available on request
• Yield values shown are for standard service tools
• Big Bore MHA’s with larger drop ball size also available
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 20
C-Load Motor- Head Assembly (MHA)
The C-Load Motor-Head Assembly (MHA) combines three essential Coiled Tubing BHA components into one compact unit: Double-Flapper Check Valves, heavy duty Hydraulic Disconnect and Dual-Acting Circulating Sub. High-Pressure/ Extreme Temperature (15,000 PSI/ 232° C/ 449.6° F) option also available.
The Double-Flapper Check Valves provide the primary well control barrier, within the Coiled Tubing Bottom Hole Assembly (BHA), during well intervention operations. The double barrier, normally-closed configuration prevents the inflow of wellbore fluids to the Coiled Tubing, while still allowing high circulating rates to be achieved.
The C-Load Hydraulic Disconnect section is an extremely robust, heavy duty, drop-ball release mechanism. It allows a stuck Bottom Hole Assembly (BHA) to be disconnected and provides a standard internal “GS” profile for subsequent fishing operations. The inherent strength of the C-Load Disconnect is provided by its’ unique grapple design, which also resists bending and vibrational loads.
The Dual-Acting Circulating Sub is a drop-ball-activated device, which includes a standard rupture disc port. The shear rating of the circulating piston can be adjusted to suit specific well conditions.
The rupture disc can be activated to regain circulation if the lower section of the Bottom Hole Assembly (BHA) has been plugged off
The shear rating of the Disconnect and circulating sections can be adjusted to suit specific well conditions.
Design Features • Torque-Through Capability
• Standard & H2S Service Versions Available
• Variable Shear Ratings & Ball Seat Sizes
• Integral Rupture Disc Assists in Regaining Circulation
• Well-Proven, Reliable, Robust & Compact Design
• Maintenance & Redress Readily Performed in the Field
• High Pressure/ High Temperature Versions Available
• Extremely Resistant to Vibrational & Impact Loads
• Torque Transmission Clutches Positioned to Minimise Risk of Damage During Operation
• Captive Placement of Disconnect Shear Screws Ensures Security Under Vibrational Loads
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 21
C-Load Motor- Head Assembly (MHA)
Tool Specifications
Tool OD Tensile Yield Torsional Yield Standard Drop Ball Sizes
Pressure Rating Standard Connections
Ø1-¼” 25,500 lbs 315 ft-lbs Ø3/8” (Disconnect) Ø5/16” (Circ. Sub)
5,000 psi 1.062”-16UN
Ø1-½” 31,000 lbs 430 ft-lbs Ø7/16” (Disconnect) Ø3/8” (Circ. Sub)
5,000 psi 1.125”-10 SA
Ø1- 11/16”
34,250 lbs 500 ft-lbs Ø9/16” (Disconnect) ؽ” (Circ. Sub)
5,000 psi 1.000” AMMT
Ø1-¾” 51, 600 lbs 750 ft-lbs Ø9/16” (Disconnect) ؽ” (Circ. Sub)
5,000 psi 1-½” AMMT
Ø2-1/8” 86,000 lbs 1,500 ft-lbs ؾ” (Disconnect) Ø5/8” (Circ. Sub)
5,000 psi 1-½” AMMT
Ø2-7/8” 170,750 lbs 3,900 ft-lbs Ø7/8” (Disconnect) ؾ” (Circ. Sub)
7,500 psi 2-3/8” PAC DSI
Ø3-1/8” 180,000 lbs 4,600 ft-lbs Ø7/8” (Disconnect) ؾ” (Circ. Sub)
5,000 psi 2-3/8” PAC DSI
Ø4-¾” 391,000 lbs 14,250 ft-lbs Ø1-¾” (Disconnect) Ø1- 5/8” (Circ. Sub)
5,000 psi 3-½” IF
Notes
• Other sizes & connections available upon request
• Other Sizes & Connections Available Upon Request
• Yield Values Shown Are For Standard Service Tools
• Medium Pressure MHAs Also Available
• High Pressure/ High Temperature MHAs Also Available
• Big Bore MHAs With Larger Drop-Ball Sizes Also Available
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 23
Pressure
Activated
Circulating Sub
Applications: • All Milling and Jetting Applications
• Ideal for use During FRAC/ Bridge Plug Milling to Improve Debris Removal
• Ideal for wiper trips/ sweeps
Features: • Increased Up-Hole velocity when cycled
to the Annulus for improved hole cleaning
• Reduces wear on down-hole motors, extending run life
• Reduces Coiled Tubing fatigue by lowering circulating pressures
• Saves time by eliminating the need for drop-balls
• Tools below are isolated from flow when in circulating mode
• Unrestricted through-bore minimizes washout damage and allows for the passage of drop-balls, if required
• Unlimited number of cycles
• As the tool will not switch position until the pumps are turned off, the pump rate can be increased or decreased as required in either mode
• No need to calibrate the tool for specific flow rates or pressures
The Pressure-Activated Circulating Sub (PACS) is a flow-activated tool which is a replacement for the conventional drop-ball Circulating Sub.
As it is flow-activated, the tool can be opened and closed as many times as required. The tool has two positions: flow-through and circulating. Switching from one position to another is achieved by simply turning the pumps off and on again.
The PACS tool uses hydraulic pressure to move an internal piston which stops in one of two positions each time the tool is cycled. This hydrau- lic pressure comes from the pressure created by fluid flowing through either the tools below, or an internal nozzle. These two positions allow the fluid to pass through the tool to the BHA below, or out of the circu- lating ports into the annulus.
Technical Specifications:
Tool OD 2.875” 3.125”
Overall Length 64.6” 63.7”
Connections 2-3/8” PACS DSI Box x Pin
2-3/8” REG
MAX Working Pressure Rate
7500 PSI 7500 PSI
Temperature Rating 190o C/ 374o F 190o C/ 374o F
Tensile Yeild 135,000 lbs 154,000
Torsional Yeild 3,000 ft/lbs 3,600 ft/lbs
MAX Flow Through Circulation Ports
6+ bbl/min 8+ bbl/min
Total Flow Area of Circulation Ports
0.48 In2 0.80 In2
Pressure required to Activate
200 PSI 220 PSI
24 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Dual-Acting Circulating Sub
The Dual-Acting Circulating Sub has been designed to save wear on Bottom Hole Assembly components and to provide an increased flow rate through tools after activation.
A drop-ball Circulating Sub is typically used on drilling or milling BHAs. At the required depth a drop-ball is launched into the Coiled Tubing or Jointed Pipe and pumped down to the Circulating Sub. When the ball seats and pressure is increased, a piston within the tool is shifted, which allows flow to be directed to the annulus. This isolates further flow through the motor and allows the flow rate to be increased. The resulting higher annular flow assists in cleaning debris from the wellbore.
The Circulating Sub can also be fitted with a rupture disc port which allows circulation to be regained in an emergency situation.
Design Features
• Easily Field Re-Dressable
• Optional Rupture Disc Available
• Easy to Assemble & Operate
• Surface Indication of Successful Activation
• Various Circulation Port Sizes Available to Suit Expected Well Conditions
• Interchangeable Circulation Piston Allows Different Sizes of Drop-Balls to be Used
Notes
• Other sizes & connections available upon request
• Standard & H2S Service Versions Available
• Yield Values Shown are for standard service tools
Tool Specifications
Tool OD Tensile Yield Torsional Yield Standard Drop Ball Sizes
Pressure Rating Standard Connections
Ø1-11/16” 55,000 lbs 690 ft-lbs Ø7/16” 5,000 psi 1.000” AMMT
Ø2-1/8” 115,000 lbs 1,600ft-lbs Ø5/8” 5,000 psi 1-1/2” AMMT
Ø5/8” 115,000 lbs 1,600 ft-lbs Ø7/8” 5,000 psi 1-1/2” AMMT
Ø2-7/8” 210,000 lbs 3,900 ft-lbs Ø7/8” 5,000 psi 2-3/8” PAC DSI
Ø2-7/8” 210,000 lbs 4,800 ft-lbs Ø1-3/16” 5,000 psi 2-3/8” PAC DSI
Ø3-1/8” 210,000 lbs 4,800 ft-lbs Ø1-1/4 5,000 psi 2-3/8” PAC DSI
Ø3-1/8” 312,000 lbs 5,800 ft-lbs Ø1-1/4” 5,000 psi 2-3/8”REG
Ø4-3/4” 570,000 lbs 18,000 ft-lbs Ø2-1/8” 5,000 psi 3- 1/2 IF
25 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Pump-Out Sub
Tool Specifications
The Pump-Out Sub is a pressure-activated tool which prevents wellbore fluid from entering the work string as it is ran in hole.
Two pressure-retaining shear plugs are fitted to this sub, to provide the required double-barrier isolation. The tool is commonly used to confirm the pressure integrity of a velocity string. Following installation of the string, once string integrity has been confirmed, pressure inside the velocity string is increased to the required value to shear the screws retaining the plugs in position. This then allows the plugs to exit the lower section of the sub. Fluids can now be produced through the velocity string.
Design Features
• Adjustable Shear Rating
• Simple Design & Operation
• Shear Screws Positioned Internally
• Internal & External Pressure Integrity
• Full-Bore Access Following Tool Activation
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yield values shown are for standard service tools
Tool OD Tensile Yield Torsional Yield Pressure Rating Standard Connections
Ø2-1/16” 65,000 lbs 1,100 ft-lbs 5,000 psi 1-½”(#2.9) CS Hydril
Ø2-1/8” 64,000 lbs 1,100 ft-lbs 5,000 psi 1-½”(#2.9) CS Hydril
Ø2-¼” 79,000 lbs 1,400 ft-lbs 5,000 psi 1-½”(#2.9) CS Hydril
Ø2-9/16” 64,000 lbs 1,600 ft-lbs 5,000 psi 2-3/8” (#4.6) VAM FJL
Ø2-5/8” 64,000 lbs 1,600 ft-lbs 5,000 psi 2-3/8” (#4.6) VAM FJL
Ø2-7/8”” 64,000 lbs 1,600 ft-lbs 5,000 psi 2-3/8” (#4.6) VAM FJL
Ø3-1/8” 170,000 lbs 4,000 ft-lbs 5,000 psi 2-3/8” EUE
Ø3-3/8” 199,000 lbs 5,000 ft-lbs 5,000 psi 2-7/8” (#6.4) VAM TOP
26 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Annular Flow Sub
Tool Specifications
The AAnnular Flow Sub has been designed to allow switching of flow between the RIH mode of split flow between annular and through the tool, to purely through the tool by means of pumping a drop ball.
The tools ball seating piston can be changed to accomadate various sizes of drop ball and alternatively, a blank plug can be fitted which will direct all flow to the annulus. This can be especially useful when running inflatable packers as it helps to ensure the packer will not inflate prematurely.
When the required depth is reached, a drop-ball is pumped to the Annular Flow Sub. An increase in pressure will be observed as the ball seats in the tool. When the pins in the tool are sheared the tool is activated and a pressure drop indication is noticeable at the sureface. The annulus ports are sealed and flow is directed through the bore of the BHA.
Design Features
• Single Use Per Run
• Surface Indication of Successful Activation
• Controlled Setting of Inflatable Down-Hole Components
• Can be Fitted With Various Nozzles, or Blanks to Suit Requirements
Notes
• Other sizes & connections available upon request
Tool OD Tensile Yield Torsional Yield Standard Drop Ball Sizes
Pressure Rat- ing
Standard Connections
Ø2-1/8” 102,000 lbs 1,600 ft-lbs ؽ” 5,000 psi 1-½” AMMT
Ø2-7/8” 170,000 lbs 3,900 ft-lbs ؽ” 5,000 psi 2-3/8” PAC DSI
27 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
In-Line Down- Hole Filter
Tool Specifications
The In-line Filter prevents the passage of debris into the Bottom Hole Assembly components. This is especially important in locations where the fluid supply may be contaminated or contain sediments.
The filter screen is contained within the main body of the assembly and can easily be removed for inspection, cleansing and replacement. The tools are supplied with 80 micron or 300 micron filters and others are available upon request.
The In-line filter is typically ran above tools with fine tolerances, such as jetting nozzles, rotating jetting tools and cavitation tools.
Design Features
• Efficient Design/ Minimal Number of Components
• Provides Debris Restriction of Critical BHA Components
• Easy Replacement of Filters
• Variety of Micron-Rated Filters Available
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yield values shown are for standard service tools
Tool OD Tensile Yield Torsional Yield Pressure Rating Standard Connections
Ø1-11/16” 38,400 lbs 575 ft-lbs 5,000 psi 1.000” AMMT
Ø2-1/8” 115,000 lbs 1,600 ft-lbs 5,000 psi 1-½” AMMT
Ø2-5/8” 115,000 lbs 1,600 ft-lbs 5,000 psi 1-½” AMMT
28 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Jetting & Cementing
Nozzles
Well Intervention Products & Services’ Jetting Nozzles are available in multiple orientations and configurations i.e. up, down, lateral or rotational. Standard Jetting Nozzles are provided with machined ports and threaded nozzle inserts. Variety of inserts are also available.
All Nozzle types and sizes can be manufactured to customer requirements.
Tool Specifications
Tool OD Hole Sizes Tensile Yield Torsional Yield Standard Connections
Ø1-¼” 5 x Ø5 mm 52,000 lbs 690 ft-lbs 0.970” Stub Acme
Ø1-3/4” 5 x Ø6 mm 61,870 lbs 690 ft-lbs 1.000” AMMT
Ø2-1/8” 5 x Ø6 mm 115,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø2-½” 5 x Ø3/16” 115,000 lbs 1,600 ft-lbs 1-½” AMMT
Ø2-7/8” 5 x ؼ” 210,000 lbs 4,800 ft-lbs 2-3/8” PAC Dsi
Ø3-1/8” 5 x Ø5/16” 362,000 lbs 5,800 ft-lbs 2-3/8” REG
Ø3-½” 5 x Ø7/16” 362,000 lbs 5,800 ft-lbs 2-3/8” REG
Ø3-¾” 5 x ؽ” 362,000 lbs 5,800 ft-lbs 2-3/8” REG
29 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
SpinCat™ Rotary
Wash Tool
The SpinCat™ family of tools provide a durable, controlled rotation solution for well intervention operations. A viscous fluid governor controls rotation speed to maximize jet power delivered to the tubing or casing walls. By using only a few rotating jets, each jet is bigger to convey hard-hitting power. Replaceable jets are efficient and clean recesses and irregular surfaces without damaging the well tubulars. Over thirty years of waterjet engineering back the SpinCat™ design, setting the standard for rotary nozzle performance and durability.
The SpinCat ™ is an extremely durable, self-rotating nozzle for well service applications. The powerful rotating jet design is engineered to maximize the limited hydraulic horsepower available to the BHA at the end of a long Coiled Tubing or Jointed Pipe work string. Jet reaction force powers rotation of the head and in internal centrifugal speed control mechanism maintains rotation speeds.
SpinCat™ tools have a straight flow-through design with a leak-free high pressure seal, so pump power is not wasted.
Sizes available in 1-11/16”, 2-1/8”, 2-1/2” & 2-7/8” OD
Design Features
• Rotating Assembly for Complete 360° Coverage
• Simple Maintenance- Field Serviceable
• Durable Fluoro-Elastomer Seals
• Replaceable 1/8” Attack-Tip™ Nozzle(s)
• Computerized Diagnostic Analysis
• Controlled Rotation- Increases Dwell Time
Notes
• Other sizes & connections available upon request
Tool Specifications
Model SC-168™ SC-212™ Ø 2.50” Ø 2.50”
Max. Pressure 5,000 psi 345 bar 5,000 psi 345 bar 5,000 psi 345 bar 5,000 psi 345 bar
Flow Range 0.7 - 1.3 bpm 111 - 207 lpm
0.8 - 2.0 bpm 127 - 318 lpm
1.0 - 3.0 bpm 160 - 480 lpm
1.0 - 3.0 bpm 160 - 480 lpm
Flow Rating 2.3 Cv 4.6 Cv 7.5 Cv 7.5 Cv
Outside Diam. 1.68 in 43 mm 2.12 in 54 mm 2.50 in 64 mm 2.87 in 73 mm
Overall Length 9.8 in 250 mm 12.3 in 312 mm 16 in 406 mm 15.6 in 396 mm
Inlet 1” AMMT 1-1/2” AMMT 1-1/2” AMMT 2-3/8” PAC
Rotation Speed 150-200 rpm 150-200 rpm 80-150 rpm 80-150 rpm
Weight 4.6 lbs 2 kg 8.9 lbs 4 kg 15.9 lbs 7.2kg 20 lbs 9.1 kg
PSI Loss @ 1 bpm 330 psi 23 bar 83 psi 6 bar 31 psi 2 bar 31 psi 2 bar
Max. Pressure 390°F 200°C 390°F 200°C 390°F 200°C 390°F 200°C
30 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Venturi Junk
Basket
Tool Specifications
The Venturi Junk Basket is used to remove debris from the wellbore. Based upon the “Venturi Principle”, this tool functions similarly to a vacuum cleaner and allows solids to be stored in an integral debris chamber and transported to surface for safe disposal.
The Venturi Junk Basket operates by pumping fluid through external nozzles in the tool to an internal debris chamber. The increase in fluid velocity at the nozzles results in a reduction of pressure in the Venturi chamber. This pressure differential creates a circulation path through the tool carrying loose debris into the debris chamber.
A filter screen in the tool prevents debris from blocking the flow path in the Venturi chamber. When circulation through the tool is stopped, “finger catcher” at the bottom of the tool close preventing solids from falling back into the wellbore. The capacity of the debris chamber can be increased by adding wash pipe extensions.
The Venturi Junk Basket can also be ran with a Wash Over Shoe fitted to the bottom of the Venturi. When used in conjunction with a down-hole motor, this provides the facility for debris removal in operations such as milling or washing over a fish.
Design Features • Interchangeable Nozzles Allows for Various Flow Rates & Pressures
• Debris Chamber can be Enlarged with Wash Pipe Extensions
• Can be Operated by Pumping Fluid, Gas or a Combination of Both
• Can be Used with a Mud Motor
• Catcher Sub Available as a Stand-Alone Item
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yield values shown are for standard service tools
Tool OD Tensile Yield Torsional Yield Pressure Rating Standard Connections
Ø1-11/16” 37,250 lbs 400 ft-lbs 5,000 psi 1.000” AMMT x 1-11/16” CWP
Ø1-13/16” 40,500 lbs 430 ft-lbs 5,000 psi 1.000” AMMT x 1-13/16” CWP
Ø2-1/16” 48,650 lbs 730 ft-lbs 5,000 psi 1-½” AMMT x 2-1/16” CWP
Ø2-¼” 56,900 lbs 800 ft-lbs 5,000 psi 1-½” AMMT x 2-¼” CWP
Ø2-5/8” 76,500 lbs 1,180 ft-lbs 5,000 psi 1-½” AMMT x 2-¼” CWP
Ø3-1/8” 82,000 lbs 3,200 ft-lbs 5,000 psi 2-3/8” PAC Dsi x 3-1/8” CWP
31 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Hydraulic Bow Spring Centraliser
Tool Specifications
The Hydraulic Bow Spring Centraliser is used to provide stability and centralisation to a Bottom Hole Assembly (BHA).
The design allows the BHA to be centralised even if it has to pass through restrictions that are too small for Fixed-Blade Stabilisers. By pumping fluid through the tool, the piston is activated which expands the bow springs and centralises the BHA.
Well Intervention Products & Services also produces a Mechanical Bow Spring Centraliser. This model does not require fluid to circulate through the tool for operation. Two of these centralisers are normally placed along the length of the BHA to obtain best results.
Design Features
• Mechanical or Hydraulic Versions Available
• Standard & H2S Service Versions Available
• Simple Design & Operation
• High Bow Spring Expansion
Notes
• Other sizes & connections available upon request
• Yield values are for standard service tools
Tool OD ID Range Tensile Yield Torsional Yield Standard Connections
Ø1-11/16” Up To Ø6.000” 53,000 lbs 650 ft-lbs 1.000” AMMT
Ø1-13/16” Up To Ø6.000” 58,000 lbs 690 ft-lbs 1.000” AMMT
Ø2-1/8” Up To Ø7.000” 76,000 lbs 1,100 ft-lbs 1-½” AMMT
Ø2-7/8” Up To Ø10.000” 124,000 lbs 2,000 ft-lbs 2-3/8” PAC DSI
33 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Lead Impression Block
The Lead Impression Block (LIB) is used to make an accurate impression of an obstruction or a fish down hole. With this impression it is possible to determine the dimensions and configuration of the upper end of a fish as well as its’ condition and position in the well. This information well help determine the selection of the fishing tool required to retrieve the fish.
The Lead Impression Block is a steel cylinder housing with soft lead molded at the bottom. The LIB is ran on the bottom of a tool string and will be ran in-hole just above the fish or obstruction. As weight is set slowly onto the fish top/ obstruction, in impression is cast into the lead mold. Impressions should only be made once prior to pulling out of hole. Repeated impressions can overlap each other, rendering it impossible to interpret once back on surface.
The Lead Impression Block can be redressed to use again by remolding the lead insert.
Benefits
• Provides an impression of the top of a fish or obstruction
• Low-cost alternative to down-hole cameras
• Flow-Through design allows circulation through the tool
• Side-Mounted circulation ports allow-full-face impression
• Easy to dress & use again
34 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Flow-Release GS Spear
Tool Specifications
The Flow-Release GS Spear provides a reliable method of attaching to and retrieving tools with an internal “GS”- type fish neck.
To latch into a fish neck, run the tool in hole above the fish, kick in pumps then stab into the GS profile. When the pump is stopped, the tool will return to the latched position and the downhole assembly can be retrieved to surface.
To release the tool from the fish neck, weight is set down on the BHA and the flow rate is increased. Flow through the tool creates back pressure which acts on an internal piston, causing the grapple to retract into the release position.
The orifice is easily accessible and can be changed so that the release pressure is attained at the desired flow rate.
Design Features
• Simple, Robust Design With Minimal Number of Components
• Flow-Through Capability
• Interchangeable Orifices
• Easily Field Redressable
Tool OD Tensile Yield Nominal F/N Size Standard Connection
Ø1-½” 26,500 lbs 1-½” GS Profile 1.000” AMMT
Ø1-11/16” 40,500 lbs 2.000” GS Profile 1.000” AMMT
Ø2.000” 56,000 lbs 2.000” GS Profile 1-½” AMMT
Ø2-1/8” 88,000 lbs 2-½” GS Profile 1-½” AMMT
Ø2-7/8” 155,000 lbs 3.000” GS Profile 2-3/8” PAC
Ø3-5/8” 244,000 lbs 4.000” GS Profile 2-3/8” PAC
Ø4-7/16” 244,000 lbs 5.000” GS Profile 2-3/8” PAC
Ø5-½” 244,000 lbs 6.000” GS Profile 2-3/8” PAC
Ø5-¾” 244,000 lbs 7.000” GS Profile 2-3/8” PAC
35 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Flow-Release Slick-Catch Spear
The Flow-Release Slick-Catch Spear provides a method of engaging and recovering tubulars or other types of equipment with a slick internal profile. The Slick-Catch Spear can also be used where standard internal fish neck profiles have become damaged preventing the use of standard pulling tools.
To latch into a fish neck, run the tool in hole above the fish, kick in pumps then stab into the ID. To release the tool from the fish, simply set down weight on the BHA while circulating at a pre-determined flow rate through the tool. Flow through the tools’ adjustable orifice creates the back-pressure required to move the latch grapple into the release position. The internal spring returns the grapple to the engaged position when flow through the tool is stopped. The tool can be functioned as many times as required.
The Flow-Release Slick-Catch Spear’s adjustable orifice is easily changed to adjust the activation flow rate and pressure to suit each application. Flow through the tool can also be used to wash debris from above as well as inside the fish top prior to making engagement.
Design Features
• Hydraulic Operation, no shear screws required
• Flow-Through capability
• Can be functioned multiple times
• High Tensile strength for jarring operations
• Torque-Through version also available
• Range of “Catch” sizes available for each tool
Tool Specifications
Tool OD Tensile Yield Min Catch Release Pressure Standard Connection
Ø1-3/4” 43,000 lbs Ø1.297” 660psi 1.000” AMMT
Ø2-1/8” 54,000 lbs Ø1.563” 700psi 1-1/2” AMMT
Ø2-7/8” 140,000 lbs Ø2.500” 500psi 2-3/8” PAC DSI
Ø3.000” 140,000 lbs Ø2.500” 500psi 2-3/8” PAC DSI
Ø3-1/8” 161,000 lbs Ø3.125” 350psi 2-3/8” PAC DSI
36 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Flow-Release JDC
Pulling Tool
Tool Specifications
The Flow-Release JDC Pulling Tool is used for the running and retrieval of equipment fitted with an external JDC-style fish neck.
For retrieval operations, run the tool in hole above the fish, kick in pumps then go over the external fishing profile. When the pump is stopped, the tool will return to the latched position and the downhole assembly can be retrieved to surface.The Coiled Tubing is then slowly pulled out of the hole which causes the grapple within the pulling tool to engage the fish neck. Once latched onto the fish neck, pulling and jarring operations may commence.
To release the Pulling Tool from the fish, the weight is set to neutral and flow through the tool is established. This creates a pressure differential which releases the grapple from the fish neck, allowing the tool to be pulled free.
The “release” flow rate is altered by changing the nozzle fitted to the tool, and this is easily performed on location.
Design Features
•Simple, Robust Design With a Minimal Number of Components
•Interchangeable Grapples With a Wide Range of Catch Sizes
•Easily Calibrated on Location
•Available With Threaded Main Body to Allow Over-Size Guides to be Fitted
Notes
• Other sizes & connections available upon request
• Standard H2S service versions available
Tool OD Tensile Yield Largest F/N Size Release Pressure Standard Connection
Ø2-1/8” 76,000 lbs Ø1-3/8” 350psi 1-½” AMMT
Ø2-5/8” 115,000 lbs Ø1-¾” 200psi 1-½” AMMT
Ø2-7/8” 65,000 lbs Ø2-5/16” 200psi 2-3/8” PAC DSI
Ø3-3/8” 165,000 lbs Ø2-5/16” 200psi 2-3/8” PAC DSI
37 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Flow-Release
Slick-Catch Overshot
Tool Specifications
The Flow-Release Slick-Catch Overshot is designed to engage and retrieve tubing or tools with a “slick” outside diameter. The hydraulically-operated Overshot may be repeatedly released from the fish as required.
For retrieval operations, run the tool in hole above the fish, kick in pumps then go over the slick outside diameter of the fish. When the pump is stopped, the tool will return to the latched position and the downhole assembly can be retrieved to surface.The Coiled Tubing is then slowly pulled out of the hole which causes the grapple within the overshot to fully engage the fish neck. Once latched onto the fish neck, pulling and jarring operations may commence.
To release the Slick-Catch Overshot from the fish, the weight of the string is set to neutral and flow through the tool can be established. This creates a pressure differential which releases the grapple, allowing the tool to be pulled free.
The “Release” flow rate is easily altered by changing the nozzle fitted to the tool. Flow through the tool can also be used to wash debris from the top of the fish prior to latching.
Design Features
• Simple, Robust Design With a Minimal Amount of Components
• Interchangeable Grapples For a Wide Range of Catches
• Easily Field Redressable
• Available With Threaded Main Body to Allow Over-Sized Guides to be Fitted
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
Tool OD Tensile Yield Largest F/N Size Release Pressure Standard Connection
Ø2-1/8” 80,000 lbs Ø1-½” 150psi 1-½” AMMT
Ø2-5/16” 85,000 lbs Ø1-11/16” 200psi 1-½” AMMT
Ø2-5/8” 96,000 lbs Ø2.000” 200psi 1-½” AMMT
Ø2-7/8” 105,000 lbs Ø2-¼” 200psi 2-3/8” PAC DSI
Ø3-1/8” 115,000 lbs Ø2-½” 200psi 2-3/8” PAC DSI
Ø3-3/8” 84,000 lbs Ø2-7/8” 200psi 2-3/8” PAC DSI
Ø3-5/8” 194,000 lbs Ø2-7/8” 200psi 2-3/8” PAC DSI
Ø4-½” 210,000 lbs Ø3-½” 200psi 2-3/8” PAC DSI
38 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Bowen Series
10 & 20 Overshots
The Series 10 Overshot is a small diameter tool used to engage and retrieve sucker rods, couplings or other small diameter tools. The field- proven and reliable design provides the strongest tool available to externally engage and pull a fish in slim-hole applications.
The Overshot can be used for Coiled Tubing or Jointed Pipe operations. When the Overshot is ran on Jointed Pipe or in certain Coiled Tubing operations it can be released with right-hand rotation.
Various sizes and styles of guides can be fitted to the Overshot to help align with the fish.
The Series 20 Short-Catch Overshot is a small diameter tool specifically designed to externally engage a short profile fish top, where the Series 10 Overshot cannot.
The grapple control is positioned above the basket grapple rather than below it to allow the basket grapple to be placed in the lowest part of the bowl/ closest to the fish top.
Benefits
• Released With Right-Hand Rotation
• High Tensile Strength for Jarring Operations
• Proven, Reliable Design
• Various Catch Size for Each Tool
Notes
• Various sizes and catch ranges available upon request
39 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Bowen Series 70 Short-Catch
Overshot
The Series 70 Short-Catch Overshot is specifically designed to engage a portion of a fish too short to engage with a conventional Overshot.
The grapple control is positioned above the basket grapple rather than below it to allow the basket grapple to be placed in the lowest part of the bowl/ as close as possible to the fish top.
The Overshot can be used in Coiled Tubing and Jointed Pipe operations. When the Overshot is used in conjunction with Jointed Pipe or in certain Coiled Tubing operations, the Overshot can be released by rotating to the right.
Benefits
• Released With Right-Hand Rotation
• Large Flow-Thru Capability
• High Tensile Strength for Jarring Operations
• Proven, Reliable Design
• Various Catch Sizes Available for Each Tool
Notes
• Specs Available Upon Request
• The Grapple Overshot is directly available in a range from 2-5/8” OD to 4-3/8” OD with a Catch range of 2-1/2” – 3-3/8” OD.
40 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Bowen Series
150 Overshot
The Bowen Series 150 Overshot is the strongest tool available to externally engage, pack-off and pull a fish. The basic simplicity and rugged construction with which it is designed has made it the standard for all external fishing tools.
The Bowen Grapple Overshot is composed of three external components: the Drive Sub, Bowl & Guide. The basic Overshot may be dressed with either two sets of internal parts, depending on whether the fish to be caught is near maximum size for the particular Overshot.
If the fish diameter is near the maximum catch of the Overshot, a Spiral Grapple will be used.
If the fish diameter is considerably below the maximum catch size (usually ½”), a Basket Grapple will be used.
Releasing the tool requires right hand rotation, which cannot be achieved by Coiled Tubing. If a release feature is required, a releasing tool should be ran above it.
The Grapple Overshot is used when there are parts of the BHA or Coiled Tubing separates down-hole. It can also be used to reconnect a stuck section of parted Coiled Tubing in order to allow a Chemical Cutter to be ran on wireline.
The Bowen Overshot ranges from 2-1/8” OD – 4-11/16” OD with a catch range of 1” OD – 3-3/4” OD. Other sizes available upon request.
41 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Pick-Up/ Bulldog Overshot
The Pick-Up/ Bulldog Overshot has been designed for the retrieval of fish with a large outside diameter. It is often the only available method of retrieving such fish, and the design is simple and robust. The Overshot is fitted with a ‘C’ Grapple which is located in a tapered bowl to provide the required clamping force.
The tool is operated by running the Overshot over the fish neck. As the tool is picked up, the Grapple compresses around the fish neck and the assembly is pulled out of hole to surface. Once engaged, the tool cannot be released.
Design Features
• Simple & Robust Design
• Small Ratio of Fish OD to Overshot OD
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yield values shown are for standard service tools
42 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Flow-Release Bulldog Spear
The Flow-Activated Releasable Fishing/ Bull Dog Spear is a variable catch, internal spear used to retrieve a lost-in-hole cylindrical fish from the well bore.
A complete range of slips are available for each tool size. To operate, simply run into the fish and set down weight, pick up and retrieve the fish. To release from the fish, set down the weight and circulate in conjunction with a Hydraulic Sequencing Tool above the spear. The spear will then release due to the flow-created differential pressure.
When ordering flow-activated releasable fishing/bull dog spears, please specifiy:
• Size
• Thread connection
• Additional slips required
Benefits
• Flow or Drop-Ball Activated
• Hardened & Double-Tempered Slips
• Robust Construction
• Variable Slip Sizes for Each Tool
Tool Specifications
Nominal Size 2” 2½” 3” 3½” 4”
Maximum O.D. 1.850” 2.250” 2.626” 3.110” 3.625”
Minmum I.D. (without choke) 0.250” 0.390” 0.390” 0.390” 0.390”
Tensile Strength (Standard ser- vice)
37,000 lbs 59,000 lbs 80,000 lbs 80,000 lbs 84,000 lbs
Make-Up Length 18.38” 21.62” 24.30” 24.30” 24.30”
Standard Slips Supplied 1-3/8” - 1½” 2” - 2-1/8” 2¼” - 2-3/8” 2-5/8” - 2¾” 3-1/8” - 3¼”
43 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
KELO Socket Overshot
Tool Specifications
The KELO Socket Overshot is specially designed for Coiled Tubing and HWO operations to catch Out-of-Round fish tops. It is designed to catch fish with a flat moulded top i.e. collapsed tubing or capillary coil, as well as corroded pipe or fish made of hardened material (difficult to make engagement).
This special pulling tool is designed to catch fish externally. The KELO Socket Overshot has an angled path inside the tool with a big tapered entry on the bottom for a smooth entrance for the fish. Various sized guides are available for the KELO Socket Overshot to decrease the clearance between the fish and tool in bigger tubulars or casings and achieve better catch chances.
The KELO Socket Overshot has no release possibility of its own. If a release feature is required, a releasing tool should be ran above it.
Various sized grapples are available for the KELO Socket Overshot to fit 0.125” – 1.25” OD fish. Other sizes available upon request.
Benefits
• Specially Designed to Catch Out-of-Round Fish Tops Where a Standard Overshot Will Not Catch
• Also Ideal to Catch Corroded Fish or Hardened Material Fish
• Various Sized Grapples Available Upon Request
Outside Diameter 2-5/8” 67mm
Inside Diameter N/A —
Catch Range 0.125” - 1.250” 3.175mm - 31.75mm
Length 29.625” 752mm
Weight 32.3 lbs 14.7 Kgs
Top Connection 1½” AMT —
Maximum Tensile Load 93,000 lbs 42,000 Kgs
44 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Snipper/Cutting Overshot
Tool Specifications
The Snipper/ Cutting Overshot is a simple Fishing Tool which is used to cut and retrieve Coiled Tubing that has been parted, stuck and/ or abandoned in the well bore.
The cutting action is achieved by a combination of over-pull and the inward travel of a hardened Grapple. The Grapple cuts into the OD of the Coiled Tubing which is weakened to the point where the applied over-pull will sever the Coiled Tubing.
Design Features
• Ability to Cut & Retrieve Coiled Tubing
• Simple & Robust Design
• Easy Set-up For Successful Cuts
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
Tool OD Coil Size Tensile Yield Torsional Yield Standard Connection
Ø2-5/16” Ø1-½” 73,000 lbs 1,200 ft-lbs 2-1/16” (#3.25) CS Hydril
Ø2.700” Ø1-½” 144,000 lbs 2,900 ft-lbs 2-3/8” (#4.70) CS Hydril
Ø2.700” Ø1-¾” 139,000 lbs 2,900 ft-lbs 2-3/8” (#4.70) CS Hydril
Ø3-3/8” Ø1-½” 150,000 lbs 3,000 ft-lbs 2-7/8” (#6.4) CS Hydril
Ø3-3/8” Ø1-¾” 150,000 lbs 3,000 ft-lbs 2-7/8” (#6.4) CS Hydril
Ø3-3/8” Ø2.000” 165,000 lbs 4,400 ft-lbs 2-7/8” (#6.4) CS Hydril
45 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
ITCO Spear
The ITCO Spear is a compact design used to engage the fish internally. The Field-Proven and reliable design provides the strongest tool available to internally engage and pull a fish.
Various grapple sizes are available for each tool to catch a range of tubing sizes or fish IDs. Pack-off assemblies are also available for most ITCO spears to allow circulation through the fish, if required.
The ITCO spear can be used for Coiled Tubing or Jointed Pipe operations. When the tool is ran on Jointed Pipe or in certain Coiled Tubing operations, the spear can be released from the fish with right-hand rotation.
Benefits
• Robust, three- blade design for centralisation and stability
• Unique blade design with a wide operating range
• High expansion ratio
• Large, unrestricted through-bore
Notes
• **Maximum catch size listed. Grapple can be changed to accommodate smaller ODs
• The information provided above is for typical common tool sizes only, additional tool sizes available upon request
Tool Specifications
Tool OD (in) Ø 2.13” Ø 2.81”
Standard Connection (in) 1.25” Reg Box 1.25” Reg Box
Max Catch Range (in) 3.485” 3.698”1.25” Reg Box
Tensile Strength (lbs) 270,000 357,000
46 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Tri-jaw barbed grab
Well Intervention Products’ Tri-Jaw Barbed Grab is designed to retrieve damaged and broken objects from a wellbore.
It is often used when traditional grapple-style fishing tools have been unsuccessful in retrieving the fish.
The Bottom Hole Assembly (BHA) is ran to the required depth and circulation is eshed through the Coiled Tubing. When the flow rate is increased, a pressure differential is created across a spring-loaded piston within the Grab, which causes the jaws to expand. When circulation is stopped, the jaws are quickly returned to the closed position. The BHA may then be pulled to surface.
Design Features
• Robust Jaw Design
• High Expansion Ratio
• Triple-Jawed to Maximize Catching Potential
• Blades Retracted into Body When Pressure is Reduced
• Internal Spring Placement Provides Slick Outside Diameter
Notes
• Other sizes and connections available upon request
• Standard and H2S service versions available
• Yield values shown are for standard service tools
Tool Specifications
Tool OD Tensile Yield Maximum Jaw Expansion Diameter Activating Pressure Standard Connections
Ø2-½” 61,000 lbs Ø5.000” 430 psi 1-½” AMMT
Ø2.700” 61,000 lbs Ø5.000” 430 psi 1-½” AMMT
47 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Reservoir Group Magnets
Well Intervention Services’ Magnet Tools are specially designed to remove metal debris and (milling) cuttings from the well bore. Small pieces can also be fished from a well, i.e. broken fingers from Running/ Pulling Tools. The magnet tools are available in 2 designs, the Magnet Bar & the Magnet Sub.
The Magnet Bar is ran in the tool string during milling jobs to help remove milling cuttings in situations with either low annular velocity, well fluid with poor carrying properties or the density of the cuttings are too great that they simply cannot be circulated out of the well bore. Typically the Magnet Bar will be ran directly above the motor or milling assembly.
The Magnet Sub is often used to retrieve lost fingers, grapples or other light metal parts that are broken from Running, Pulling, Fishing or any other type(s) of tools. The Magnet Sub will be ran at the bottom of a tool string with a Circulating Sub above.
Benefits
• Catch Metal Debris, Cutting and Small Metal Pieces
• Helps to Keep Metal Debris out of the Mud System
• Magnets are Replaceable
• The Magnet Bar can be Ran Anywhere in the Tool String
Notes
• These magnets can be custom-built with requested ODs & connections
• Please contact Reservoir Group’s Well Intervention Products & Services to
• discuss your magnet requirement
Bear Claw Composite FRAC & Bridge Plug- 3.35” OD
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 49
Materials
• Aerospace Grade composite materials with high temperature & chemical resistance
• High Temperature thermoplastics replace brass and other non-ferrous metals
• Proven oilfield elastomeric packers for reliable, rugged performance
• Full circumference gray cast iron slips machined from bar stock for exceptional
uniformity and strength
Easily Drillable
• Does not contain tungsten carbide, large steel parts or other difficult to drill materials
• High Glass Transition Temperature means unlimited downhole lifespan and consistent debris size
• Low Density non-metallic cuttings circulate quickly and easily back to the surface leaving your wellbore clean
• Reduces Mill Out Time and casing damage compared to cast iron plugs
• Casing Damage? 3.35” Bear Claw is an excellent option for wells with casing damage requiring smaller OD Plug
Dimensional Data
The 3.35” OD Bear Claw® 2 conventional plugs are a non-stroking (i.e. ratcheting plug), low cost plug designed to run and function like a cast iron plug with mill out times comparable to the best composite plugs in the industry! Cuttings have been described as “fine like hair”. Elements are available in standard and chemical-resistant grades. These are designed specifically for captive (caged) ball, or ball-drop operations commonly used in horizontal wells. Higher Density Drop Balls are also available.
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 50
Bear Claw Compositie FRAC & Bridge Plug- 3.35” OD
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 51
Bear Claw Composite Frac & Bridge Plug 3.60” OD
Materials
• Aerospace Grade composite materials with high temperature & chemical resistance
• High Temperature thermoplastics replace brass and other non-ferrous metals
• Proven oilfield elastomeric packers for reliable, rugged performance
• Full circumference gray cast iron slips machined from bar stock for exceptional uniformity and strength
Easily Drillable
• Does not contain tungsten carbide, large steel parts or other difficult to drill materials
• High Glass Transition Temperature means unlimited downhole lifespan and consistent debris size
• Low Density non-metallic cuttings circulate quickly and easily back to the surface leaving your wellbore clean
• Reduces Mill Out Time and casing damage compared to cast iron plugs
Dimensional Data
The 3.60” OD Bear Claw® 2 conventional plugs are a non-stroking (i.e. ratcheting plug), low cost plug designed to run and function like a cast iron plug with mill out times comparable to the best composite plugs in the industry! Cuttings have been described as “fine like hair”. Elements are available in standard and chemical-resistant grades. These are designed specifically for captive (caged) ball, or ball-drop operations commonly used in horizontal wells. Higher Density Drop Balls are also available.
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 52
Bear Claw Composite Frac & Bridge Plug 3.60” OD
Bear Claw Composite Frac & Bridge Plug-4.40” OD
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 53
Materials
• Aerospace Grade composite materials with high temperature & chemical resistance
• High Temperature thermoplastics replace brass and other non-ferrous metals
• Proven oilfield elastomeric packers for reliable, rugged performance
• Full circumference gray cast iron slips machined from bar stock for exceptional uniformity and strength
Easily Drillable
• Simple Design & Use
• Easily Operated by One Person
• Minimal Maintenance
• Accommodates a Range of Coiled Tubing Sizes
• Sturdy Construction to Ensure a Long Service Life
• Lightweight Alternative to Hydraulic Dimpling Jigs
Dimensional Data
The 4.40” OD Bear Claw® 2 conventional plugs are a non-stroking (i.e. ratcheting plug), low cost plug designed to run and function like a cast iron plug with mill out times comparable to the best composite plugs in the industry! Cuttings have been described as “fine like hair”. Elements are available in standard and chemical-resistant grades. These are designed specifically for captive (caged) ball, or ball-drop operations commonly used in horizontal wells. Higher Density Drop Balls are also available.
Bear Claw Composite Frac & Bridge Plug-4.40” OD
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 54
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 55
Flowmaster
The FlowMaster is a permanent, yet retrievable, plug intended to be left in the wellbore for production.
Pump down FlowMater as usual on wireline or run in on coiled tubing, if necessary. FlowMaster can be set by explosive charge or hydraulic force. Perforate as usual and then frac against our patent pending valve technology. No ball involved; no timing issues and fluid losses, nor early disintegration compromising pressure integrity. Guaranteed seal
each and every time. Reduce your intervention costs and start producing your well!
Features and Benefits
• Large Bore
• Simple Design
• Drop Balls Optional
• Rated for up to 600°F
• Rated for 10,000 psi (68.9MPa) Frac Pressure
• Internal Pressure Assisted Anchoring
• Proven Technology
• Easily milled if required
Available Sizes
Tool OD 2.875” 3.125
Overall Length 64.2” 63.7”
Connections 2-3/8” PAC DSI Box x Pin 2-3/8” REG
Max Working Pressure Rate 7500 PSI 7500 PSI
Temperature Rating 190o C/ 375o F 190o C/ 375o F
Tensile Yeild 135,000 lbs 154,000 lbs
Torsional Yeild 3,000 ft/ lbs 3,600 ft/ lbs
Cedar Drilling Turbines
Superior performance for hard rock drilling, high temperature and demanding directional wells.
Cedar Turbine proved superior performance on high temperature and high pressure wells, it’s a 100% metallic and can run with Impreg or PDC bits.
Key advantages of Cedar turbine:
› Higher Power delivery / Efficiency with Cedar 3D Blades.
› Higher Reliability with superior PDC/TCI Bearings / extended downholelife.
› Improved Directional and Anti Bit Sticking features.
› Dedicated Turbine experts to guarantee successful operations.
› Independent Turbine supplier exclusively driven by performance.
Reservoir Group is the new international brand in the niche oilfield activities of rock sampling and evaluation, specialist well services and premium downhole drilling.
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
57
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 58
Cedar Turbines Specifications
CEDAR Turbines Specifications CEDAR 2-7/8” CEDAR 4-3/4” CEDAR 6-5/8” CEDAR 9-1/2”
Tool OD (in) 2 7/8" 4 3/4" 6 5/8" 9 1/2"
Hole Size (in) 3 1/4" to 4" 5 1/2" - 6 3/4" 7 1/2" - 9 3/4" 12" - 17 1/2"
Number of Stages 116 (Up to) 112 - 152 112 - 152 138
Top Connection 2 3/8" PAC BOX NC 38 API BOX NC 50 API BOX 6 5/8" API BOX
Bottom Connection 2 3/8" PAC PIN
3 1/2" REG API PIN or
BOX
4 1/2" REG API PIN or BOX
6 5/8" API
BOX/PIN
Stall Torque (Ft.lb) 290 1323 2344 8769
Speed Range (RPM) 1500 - 2000 1200 - 3050 1150 - 2050 600 - 900
Temperature Limit (°F) 500°F
Bit Type Diamond | Impregnated | PDC | TSD
Diamond | Impregnated | PDC
Run Time (Hours) 650 (TCI)
Power Section Length
(ft)
21.4
23.0 25.6 26.9
Bearing Section Length
(ft) 12.2 13.4 18.6
Power Section Weight
(lb)
348
1100 2645 5400
Bearing Section
Weight(lb) 750 1740 4110
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 59
Cedar 278 Operating Properties
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 60
Cedar 434 Operating Properties
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 61
Cedar 658 Operating Properties
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 62
Cedar 950 Operating Properties
Mills
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 64
Reservoir Group has a wide range of mills & bits specially designed to be ran on our motors during Jointed Pipe & Coiled Tubing milling operations. We are specialists in designing and manufacturing mills so solve down-hole problems.
The mills are dressed with Crushed Tungsten Carbide to stand up to the abuses they are subjected to during milling operations. With the machinery and trained staff on-site, we can offer custom-built mills in any size and shape. Available in Flat Bottom, Concave, Convex Configurations to suit any down-hole application.
Design Features
• Small Cuttings- Low Set-Down-Weight Needed with the Tungsten Carbide
• Most Common Mill for Plugs, FRAC Seats, Cement, Alloy-Steel Packers, Perforating Guns, Drill Pipe, Tools Joints , Reamers & Under-Reamers
• Large Circulation Ports & Large Flow Channels for Optimal Cooling & Removal of Cuttings
• High Number of Flow Ports for Optimal Debris Flushing
• Maximum Useful Life Enhanced by Self-Sharpening Feature
• Mill Redressed with Fresh Layer of Crushed Tungsten Carbide After Every Use, Ensuring Customers Start Every Job With Newly Dressed Mills
• Optional QuickTip™ Hard-Facing is Available on Stabilisation Pads
• Available in Flat Bottom, Concave & Convex Configurations
• Can be Ran on Jointed Pipe & Coiled Tubing
Notes
• These Mills can be custom built as per customer needs-connections & ODs
• Please contact Reservoir Group for further information
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 65
Offset Mills
Well Intervention Services’ Offset Mill is an innovative mill designed to pass through restrictions (including casing damage & deformation, over-torqued collars, etc) while still retaining the ability to mill to FULL ID below.
** When ran in conjunction with a Reservoir Group Down-Hole Motor, the performance is unmatched!
Reservoir Group has tremendous experience successfully deploying this proprietary technology on composite bridge plugs and FRAC plugs as well as cement with a proven track record in difficult down-hole conditions, saving our customers incalculable time and money!
**Every well bore is unique. For Assistance in calculating an Offset Mill that will work for your application, contact us today!
Design Features
• Ability to Pass Through Restrictions While Still Retaining Ability to Mill to Full ID Below
• Fully Customizable to Meet Client’s Specific Requirements
• Unrivalled Experience With Casing Deformation & Plug Mill Outs
• Available in Flat-Bottom, Concave or Convex Configuration
Notes
• These mills can be custon-built with requested ODs & connections
• Please contact Reservoir Group’s Well Intervention Products & Services to discuss your mill requirements
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 66
Step Mills
Reservoir Group has a wide variety of mills and bits specially designed to be ran on our down-hole motors for Coiled Tubing and Jointed Pipe milling operations. We are specialists in designing and manufacturing mills to solve various down-hole problems. The Step Mill is such an example of our ability to do so.
The Step Mill is primarily utilised to mill through nipple profiles/ or obstruction in a client completion. This may become a requirement to allow access of tooling with an OD which will not fit through the nipple/ obstruction.
It may also be required to mill a nipple to a larger ID to facilitate fishing tools to recover a BHA lost in hole.
Design Features
• Stepped to Minimise Surface Contact of Each Step
• Tungsten Carbide Inserts
• Crushed Carbide-Dressed Ported Nose
• Designed & Built to Client’s Specific Requirements
Notes
• These mills can be custom-built with required connections & OD
• Please contact Reservoir Group’s Well Intervention Products & Services to discuss your mill requirements
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 67
Taper Mills
The Taper Mill is designed to open up restrictions or mill out cement and other debris contained in the well bore. The mill’s sturdy construction and robust cutting structure ensure high material rates minimising milling times. The Tapered Mill can be manufactured in various sizes and configurations.
Design Features
• Low Torque Cutting Structure
• Designed to Open Up Restrictions in the Well Bore
• High Number of Flow Ports for Optimal Debris Flushing
• Can be Ran on Jointed Pipe & Coiled Tubing
Notes
• These mills can be custom-built with required connections & OD
• Please contact Reservoir Group’s Well Intervention Products & Services to discuss your mill requirements
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 68
FB Mills
Well Intervention has a wide variety of mills and bits specially designed to be ran on our down-hole motors for Coiled Tubing and Jointed Pipe milling operations. We are specialists in designing and manufacturing mills to solve various down-hole problems. The FB Mill is such an example of our ability to do so.
The FB Mill is primarily utilised to mill through Completion Ball Valves or Flapper Valves. It is dressed with Crushed Tungsten Carbide on the nose to assist with the mill bedding into the target. The Tungsten Carbide Inserts are backed up on the nose with Crushed Carbide. The taper and the back of the mill head are also dressed with Crushed Carbide and this gives the ability ream/ back-ream through the target if required.
Design Features
• Tungsten Carbide Inserts on Nose
• Crushed Carbide Dressing
• Back-Reaming Capability
• Ability to Mill Through Chrome
• Various Sizes Available
• Ability to Custom Build to Client’s Specific Requirements
Notes
• These Mills Can be Custom-Built With Required Connections & OD
• Please Contact Reservoir Group’s Well Intervention Products & Services to Discuss Your Mill Requirements
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 69
Hurricane Bits
Full Body Aardvark Mills are ideal for drilling high pressure/ multiple plugs and cemented pipe.
Carbide Buttons range in size from 5 / 16” to 1 / 2”.
Bit Size Range: 1-3/4” to 8-3/4” OD in 1/8” increments.
Circulation Ports available in 5/16” for down-hole motors, and 1-1/4” for reverse-circulating applications.
Custom Sizes also available with minimal lead time.
Full Body Chomps mills are ideal in applications that involve milling cast iron and other metal, or combination of cement and cast iron.
Carbide Buttons range in size from 5 / 16” to 1 / 2”.
Bit Size Range: 1-3/4” to 8-3/4” OD in 1/8” increments.
Circulation Ports available in 5/16” for down-hole motors, and 1-1/4” for reverse-circulating applications.
Custom Sizes also available with minimal lead time.
FBCS Hurricane mills are recommended for milling cement and metal/ composite plugs.
Compact Dome Carbide Inserts.
Mill sizes from 1-3/4” to 6-7/8” OD in 1/8” increments.
1 / 2” Circulation ports for down-hole motor applications or standard circulating.
Bodies Manufactured from 4140 HT Steel.
Custom Sizes also available with minimal lead time.
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 70
Hurricane Bits
FB1CS Hurricane Mills are recommended for milling cement and composite plugs.
Compact Dome and Chisel Carbide Inserts.
Mill sizes from 1-3/4” to 6-7/8” OD in 1/8” increments.
1 / 2” Circulation ports for down-hole motor applications or standard circulating.
Bodies Manufactured from 4140 HT Steel.
Custom Sizes also available with minimal lead time.
Full Body Bear Claw Mills are ideal for milling cement. Not recommended for milling metal.
Carbide Buttons range in size from 5 / 16” to 1 / 2”.
Bit Size Range: 1-3/4” to 8-3/4” OD in 1/8” increments.
Circulation Ports available in 5/16” for down-hole motors, and 1-1/4” for reverse-circulating applications.
Custom Sizes also available with minimal lead time.
Full Body PDC (Polycrystalline Diamond Compact) Mills are ideal for milling extremely hard and abrasive materials.
Uses range from hard cement, sand, and Barium scale. Bit
Size Range: 1-3/4” to 8-3/4” OD in 1/8” increments.
Circulation Ports available in 5/16” for down-hole motors, and 1-1/4” for reverse-circulating applications.
Bodies Manufactured from 4140 HT Steel.
Custom Sizes also available with minimal lead time.
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 71
Diamond- Imregnated MX
Mills
MX Diamond-Impregnated Mills are made using LPI (Low Pressure Impreg) where grit-sized synthetic diamonds are blended with Tungsten/ Tungsten Carbide Matrix that is molded to form blades in the mill face. Those blades can then be formed to almost any custom shape. MX Diamond-Impregnated Mills can be manufactured with a convex or concave profile to self-centre. The MX Mills are Custom-Made to suit each specific application.
The diamonds on the MX Mill act as much like a diamond grinding rock and they continue to work until fractured or worn, with fresh diamonds exposed as the upper layers slough off, enabling the mill to continue working. This process can be repeated until the mill is completely worn down.
MX Mills have been used to cut extremely hard targets including:
•Case-Hardened Steel
•Incolloy
•Carbide
•Chert
•Pyrite
•Chrome
Design Features
• ½” Circulation Ports For Motor Applications or Standard Circulation
• Specially Designed for Milling Cement & Composite Plugs
Notes
• These mills can be custom-built with required connections & OD
• Please contact Reservoir Group’s Well Intervention Products & Services to discuss your mill requirements
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 72
Raptor Mills
Tool Specifications
The Raptor Mill is designed to remove scale including Barium Sulphate scale, cement and other debris contained in the well bore.
The tools’ sturdy construction and aggressive cutting inserts ensure high material removal rates therefore minimising milling times. The design allows for a small contact area which results in low torque consumption to reduce stalling of the motor.
The Raptor Mill can be manufactured in various sizes. Tapered noses also available.
Design Features
• Wear-Protection From Stabilisation Pads
• Optional QuickTIP™ Hard-Facing is Available on Stabilisation Pads
• High Number of Flow Holes for Optimal Debris Flushing
• Can be Ran on Coiled Tubing & Jointed Pipe
• Field-Proven on Barium Sulphate Scale Milling
Notes
• These mills can be custom-built with requested ODs & connections
• Please contact Reservoir Group’s Well Intervention Products & Services to discuss your mill requirements
Tool OD (in) Connections Torsional Yield
Ø 2.000” 1” AMMT Pin 1,250 ft/lbs
Ø 2.313” /Ø 2.700” /Ø 2.830” 1½” AMMT Pin 1,250 ft/lbs
Ø 3.100” /Ø 3.375” /Ø 3.400” /Ø 3.500” /Ø 3.610”/Ø 3.750” /Ø 3.880” /Ø 3.950” /Ø 4.000” /Ø 4.095” /Ø 4.250” /Ø 4.310” /Ø 4.400” /Ø 4.500” /Ø 4.650”
2-3/8” PAC DSI Pin
4,300 ft/lbs
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 73
Abrasive Cutting Equipment
Well Intervention Products & Services has developed tools for cutting or punching tubing without the need for explosives or chemicals. Instead, an abrasive liquid- a mixture of “cutting sand” and a viscous gel- is used. The liquid is pumped through the work string at high rates through the cutting nozzle, punching tubing or drill pipe within minutes.
For cutting tubing or drill pipe, a rotating device is included in the work string, combined with a cutting nozzle with tangential holes. When the abrasive liquid is pumped, the nozzle begins rotating in a controlled manner at approximately 40 RPMs. The tools can be designed to punch in any direction, to create circulation, or remove an obstruction in the well.
The Cutting Tool is ran in conjunction with the Hydraulic Anchor Tool. This is a flow-operated anchoring tool that centralises the string, holding it in place during the cutting or punching operation. The tangential holes in the cutting nozzle create a rotating force and the nozzle rotates in a controlled manner.
Design Features • Smooth Cut- Easy to Access After Operation is Complete
• Operation is Easily Adjusted by Extending the Pump Time or Increasing Pump Rate
• No Explosives or Chemicals Required
• Tools Can be Ran Through Restrictions
• Also Effective in Corroded or Oval Tubing
• Operation Can be Tested & Simulated on Surface
• Tools Rated For H2S & C02 Service
Tool Specifications
Outside Dia. Top connection Nozzles Nozzles holes Pressure rating
Any size required 1-3/8” UN Tungsten 2.7 mm 350 bar
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 74
Hydraulic Under-Reamer
Well Intervention Products & Services can provide a full range of rotary Wash-Over Shoes designed and manufactured specifically for Jointed Pipe & Coiled Tubing applications. Wash-Over Shoes can be used for simple clean out operations such as being ran below Venturi Junk Basket for the removal of debris or can be designed for more specialised applications such as dressing the top of a fish or milling over a stuck packer/ plug.
A range of Wash-Over Shoes are available from stock, however most Wash- Over Shoes are designed and manufactured to suit each specific application. Wash-Over Shoes can be supplied in a variety of sizes and configurations with connections to suit all standard Wash Pipe Sizes.
Shoes can be dressed with a variety of cutting structures including Crushed Carbide, Carbide Inserts, PDC (Poly Crystalline Diamond Compact) and diamond inserts or diamond impregnated. Various styles of Wash-Over Shoes are available including, but not limited to, Flat-Bottom, Scalloped and Castellated Profiles depending on the operation being performed.
Design Features
• Designed Specially to Suit Each Application
• Manufactured Locally for Quick Delivery
• Robust, Field-Proven Designs & Cutting Structures
• Variety of Styles & Cutting Structures Available
Notes
• These wash-over shoes can be custom-built with required connections & OD
• Please contact Reservoir Group’s Well Intervention Products & Services to discuss your wash-over shoe requirements
Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry. 75
Hydraulic Under-Reamer
Tool O.D. 1-11/16” 2-1/8” 3-3/8” 5”
Connections 1” AMT 1½” AMT 2-3/8” REG 2-7/8” REG
Typ Pressure Drop 300 psi 400 psi 200 psi 750 psi
Max Blade Diameter 3½” 4¼” 6¼” 11”
Tensile Yield 63,000 lbs 105,000 lbs 201,000 lbs 494,000 lbs
Torsional Yield 930 ft-lbs 1625 ft-lbs 3500 ft-lbs 13,000 ft-lbs
The Hydraulic Under-Reamer is designed to clean or remove cement, scale and other material from the inside diameter of down-hole tubulars.
The tool is Ran In Hole (RIH) until the desired depth is reached, increasing the pump rate through the tool will expand the blades to the correct diameter. Maintaining this flow rate through the tool maintains the blades at the expanded diameter.
Once the clean out job has successfully been completed, reducing the pump rate will allow the blades to collapse back into the body.
Design Features
• Positive Blade Retraction & Expansion; This Allows Pumping at a Reduced Rate While Running in Hole
• Tool Design Allows Reaming in Either Direction
• Fluid Can be Directed Onto Each Blade Through Inter-Changeable Nozzles to Ensure Positive Flushing Action
• Blades Are Linked Together Preventing Independent Movement Which Detracts From the Clean Out Performance of the Tool
• Pressure-Retaining Fluid Path Through the Tool to Additional Stages & Through the Bit
• Pressure Drop Function Provides Surface Indication That the Blades are Fully Expanded
Tool Specifications
77 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Hydraulic C-Plate
The Reservoir Group Hydraulic C-plate has been designed for the safe and efficient make-up of toolstring connections. The Hydraulic C-plate is typically used when working within lifting frames on semi-submersible rigs or when working at heights where it can be difficult to correctly align the toolstring connections.
The Hydraulic C-plate provides sufficient stroke to allow for the safe make-up of most small
diameter connections and eliminates the need for radio communication or for manipulation of the CT string, lifting frame winch or crown block. The C-plate is operated by the use of a hydraulic
hand pump giving the operator full control of raising and lowering the toolstring.
The hydraulic C-plate would typically be used in conjunction with Reservoir Group Quick Connect Sub
which also eliminates the need for a hydraulic tong for toolstring make-up.
Design Features
• Safe & efficient toolstring make-up
• Eliminates radio communication
• Compatible with Wellvention Quick Connect Assemblies
• Eliminates movement of CT or blocks
• Reduces risk of personal injury
• Reduces risk of equipment damage
• Compact lightweight design
Tool Specifications
Stroke 5.00”
Load Rating 4,500 KG
Unit Weight 20 Kg
78 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Hydraulic Make / Break Tong Unit Reservoir Group Hydraulic Tong Unit is designed to provide
a safe and reliable method of making and breaking small-
diameter toolstring connections. The hydraulic tong ensures
the correct make-up torque is applied to the rotary
connections and also eliminates any unsafe practices when
attempting to make and break connections manually.
The unit comprises three separate components: an air-
driven hydraulic power pack, control panel, and torque
head. A compact and lightweight design makes the tong unit
easy to handle, allowing it to be used safely when working
at height, such as on an elevated work platform, or in limited
work spaces.
Certified lifting points are available on all components for
safe and easy handling at the rig site. The unit’s torque head
is fitted with a lifting point which allows for working with a
toolstring in either a vertical or horizontal position.
Design Features
• Safe & efficient toolstring make-up
• Compact lightweight, versatile design
• For use on rotary connections up to 3-1/2” OD
• Can also be used with small-diameter tubing and drill strings
• Can be used on connections with different diameters
• Quick and easy to operate
• Extension hoses can be fitted for working at height
• Proven, reliable design
Tool Specifications
Tool joint diameter range 1.69” - 3.50”
Maximum make-up
torque 4,000 ft-lbs
Maximum breakout torque 5,600 ft-lbs
79 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Pig / Dart Catcher
The Reservoir Group Coil Tubing Pig / Dart Catcher has been designed for safe and environmentally clean CT string pigging operation.
Design Features
• Safe & efficient toolstring make-up
• Eliminates spills
• Built in rupture disc feature to prevent over pressure
• Positive indication when ball / dart has landed
• Bleed-off facility to safely remove any trapped pressure
• Connectors available for 1-1/2” – 2-3/8” Coil Tubing
• All fluids can be pumped to a tank or drain
80 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Lift Subs
Reservoir Group designs & manufactures a variety of lifting subs to allow the safe transfer of Bottom Hole Assembly sections. They are available in box or pin configurations and all standard connections are available. They are designed to accept shackles which are certified for the expected loads.
Lift Subs are commonly used in pressure deployment operations where long BHAs are used. The Lift Subs can be attached to the BHA sections to allow safe transfer between locations. They can also be fitted with the box and pin connections provided on Reservoir Groups’ Quick Connect Assemblies to ensure ease-of-use with our Pressure Deployment Systems.
Design Features
• Simple, One-Piece Design
• Designed to Accept Specified Shackles
• Compatible With Reservoir Groups’ Quick Connect Assemblies
• Can be Provided With NPT Ports to Assist in Pressure Testing of Tool
Notes
• Other sizes & connections available upon request
• Other shackle sizes available upon request
• Can be supplied with load certification upon request
Tool Specifications
Tool OD Tensile Yield Shackle Size Standard Connection
Ø1-11/16” 49,000 lbs 3.25 Ton x 19mm Pin Diameter 1.000” AMMT
Ø2-1/8” 70,750 lbs 4.75 Ton x 22mm Pin Diameter 1-½” AMMT
Ø2-7/8” 90,000 lbs 4.75 Ton x 22mm Pin Diameter 2-3/8” PAC Dsi
81 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Coiled Tubing Internal Reamer
The Internal Coiled Tubing Reamer is designed to remove the weld bead (flashing) and improve the surface finish on the internal wall of the Coiled Tubing. This provides a smooth surface which allows the O-Rings on an Internal Coiled Tubing Connector to seal.
The tool can be fitted with a range of different cutter reamers and bushes to accommodate various Coiled Tubing ODs and wall thicknesses. The bevel cutter provides a lead-in for the connector and helps prevent damage to the O-Ring seals.
It is a simple, hand-operated tool which requires minimal training.
Design Features
• Self-Aligning
• Sturdy Construction
• Machines a High-Quality Finish on the Coiled Tubing ID
• Hardened Reaming and Bevel Inserts to Ensure Long Service Life
• Simple to Adjust to Suit Multiple Coiled Tubing ODs & Wall Thicknesses
• Bevel Cutter Available to Add Lead-In on Coiled Tubing ID to Prevent Damage to O-Rings
Notes
• Other sizes & connections available upon request
• 1-1/4” Coiled Tubing Conversion Kit Available for 31/4” OD Version
Tool Specifications
Coil OD Range Tool OD Coil Wall Thickness Weight
Ø1-1/2- Ø2-3/8” Ø3-1/4 Any 19.9-lbs
Ø1-3/4- Ø2-7/8” Ø3-7/8 Any 20.3 lbs
82 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Coiled Tubing
Internal
Dimpling Tool The Coiled Tubing Internal Dimpling Tool provides a quick and simple method of installing an Internal Dimple Connector.
A hex bit and wrench are used to apply torque to the dimpling bolts and form the Coiled Tubing into the dimple profiles on the connector. This creates a high-tensile & torsional strength connection between the Coiled Tubing and the Bottom Hole Assembly (BHA).
The dimpling jig is assembled from two halve-sections to allow the make-up of both “slick” (Slim-Hole) and over-sized Internal Dimple Connectors. The use of inserts allows the tool to accommodate various sizes of Coiled Tubing. A hydraulically-operated dimple jig is also available upon request.
Design Features
• Simple Design & Use
• Easily Operated by One Person
• Minimal Maintenance
• Accommodates a Range of Coiled Tubing Sizes
• Sturdy Construction to Ensure a Long Service Life
• Lightweight Alternative to Hydraulic Dimpling Jigs
Notes
• Other sizes & connections available upon request
Tool Specifications
Tool OD Coil OD Range Coil Wall Thickness Weight Length
Ø3-1/2” Ø1.000- Ø1-1/4 Any 15.2 lbs 6.000”
Ø4-3/4” Ø1-1/2- Ø2-3/8 An 20.5 lbs 6.250”
83 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Coiled Tubing
External Dimpling Tool
Tool Specifications
The External Coiled Tubing Dimpling Tool provides an effective method of attaching an External Dimple Connector to the Coiled Tubing.
The External Dimpling Tool is slid over the end of the Coiled Tubing and the integral hammer is used to ensure that the tool “Bottoms Out”. The dimpling screws are then hand-torqued to form dimples on the outside diameter of the Coiled Tubing. The assembly is then removed and the threaded end of the External Connector is made up to the reverse end of the External Dimpling Tool.
The External Dimple Connector is then inserted over the end of the Coiled Tubing and lined up with the dimples impressions. The set screws on the External Dimple Connector are then secured into the dimples on the Coiled Tubing and the connector is ready for pull & pressure testing.
The sliding hammer may be used to assist both the installation and the removal of the External Dimple Connector.
Design Features
• Easily Re-Dressed in the Field
• Available in Various Coiled Tubing Sizes
• Sturdy Design With Minimal Maintenance
• Integral Sliding Hammer to Assist Installation & Removal
Coil OD Tool OD Coil Wall Thickness Tensile Yield Standard Connections
Ø1-1/2” Ø3-7/8” Any 125,000 1.000” AMMT
Ø1-1/2” Ø3-7/8” Any 125,000 1-1/2” AMMT
Ø1-3/4” Ø3-7/8” Any 125,000 1-1/2” AMMT
Ø2.000” Ø4.000” Any 125,000 2-3/8” PAC DSI
84 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Pull/Pressue Test Sub
The Well Intervention Products & Services’ Pull/ Pressure Test Subs are designed to enable the safe and efficient testing of Coiled Tubing Connectors.
The Coiled Tubing Connector is made up to the box end of the plate and a pull test is performed. The Pull/ Pressure Test Sub is also used for pressure testing the Coiled Tubing Connector and Bottom Hole Assembly Components.
Pull/ Pressure Test Subs can be equiped with either side-mounted or concentric pressure ports.
This well-proven design can be used for all types of Coiled Tubing Connectors.
Design Features
• Simple, One-Piece Design
• Side-Mounted NPT Ports Can be Provided to Prevent Accidental Valve Damage
• Can be Used for Testing Several Coiled Tubing Sizes
• Large OD Suitable For a Wide Range of Pull Testing Configurations
Notes
• Other sizes, pressure ratings and connections available upon request
Tool Specifications
Tool OD Tensile Yield Torsional Yield Pressure Rating Standard Connections
Ø6-½” 61,850 lbs 90 ft-lbs 5,000 psi 1.000” AMMT x ½” NPT
Ø6-½” 115,000 lbs 1,600 ft-lbs 5,000 psi 1-½” AMMT x ½” NPT
Ø6-½” 210,000 lbs 4,800 ft-lbs 5,000 psi 2-3/8” PAC Dsi x ½” NPT
85 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
‘T’-Type Saftey Clamp
The ‘T’-Type Safety Clamp help guard against dropping flush-joint pipe, tool strings, stream-lined drill collars, etc. into the hole while making/ breaking the tool string. These clamps are ideal as an emergency elevator shoulder for lifting items which have no shoulders for attaching conventional elevators.
The Safety Clamp consists of individual links, flexibly hinged together. Each link has a separate tapered slip which acts as a gripping member, much like a tapered rotary slip, and each slip is held in a retracted position on the taper by spring tension. When the clamp is tightened, each small slip takes a firm initial grip on the surface of the pipe. Should the pipe start to slip/ fall, or should any load increase occur against the slips, the taper mounting causes each slip to wedge tighter against the surface of the pipe to increase the grip or lock the pipe against further movement. Gripping pressure is always uniform around the pipe so there is little chance of crushing thin-walled pipe or damaging the surface of the pipe. And since each link, complete with tapered slip, is interchangeable as a unit, the Safety Clamp is readily adaptable to virtually any diameter. Each link changes the effective gripping diameter of the clamp. All parts are made of alloy steel, heat-treated for strength and gripping ability.
The ‘T’-Type Safety Clamp is designed for small diameter pipe, 1-1/8” – 4-1 /2” OD. Each link changes the effective working range approximately 1” in diameter. For sizes larger than 4-1/2” OD, the ‘C’-Type Safety Clamp must be used.
86 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
End of Coil
Detector- Thru Riser (Magnetic) Detector
The End of Coil Detector is used to assist oil service providers involved in running slim-hole tools. This non-invasive wellhead sensor takes guesswork out of detecting the end of the Coiled Tubing inside the riser, preventing injuries and saving lives.
How it Works:
The sensor detects the passing end of the Coiled Tubing, and relays this information to the Control Box giving both a visual and audible warning alarm to the operators. Two data-output ports provide a low/ high alarm signal and an analogue logging signal. The Sensor Assembly is intrinsically safe and certified for use in Zone 0 hazardous areas. The Control Box and Battery Pack are certified for Zone 1.
The main system consists of two sensor heads, a Control Panel that includes an alarm, and a 12V battery pack. The sensors are typically positioned up to 50 meters (150+ feet) away from the Control Panel using the supplied connecting cables. The sensors are strapped to the outside of the riser (lubricator) section using a simple strap and buckle arrangement. When the sensors are diametrically opposed to each other, tightening of the straps will keep everything in place. The position of the sensors is important to give full coverage of the riser bore. The system must be powered by a 12V DC supply, either fed by an infallible transformer or by a
battery pack supplied with the mai
Dual-Acting Impact Hammer
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
The Dual-Acting Impact Hammer is a high-frequency, bi-directional impact tool which is activated with a combination of flow rate and applied load. A minimal load is required (approximately 500 lbs) in order to activate the tool. The performance of the tool is dependent on applied load, pump rate and pressure.
The flow rate through the tool will determine the frequency of impact (number of hits per minute). Normal operating flow rate is between 0.5 & 1.0 bbl/ min. The impact force will increase with applied load. Optimum operating load is 1,000 – 1,500 lbs. For optimum performance it is recommended to run the tool with an accelerator. Weight bars can also be ran in between the Hammer and Accelerator.
The Dual-Acting Impact Hammer is ideally suited to high-deviation or long horizontal wells as minimum load is required for activation. The tool can be used for various applications including opening and closing sliding sleeves and isolation valves, setting and retrieving plugs and various fishing applications.
Benefits
• Low Operating Loads Compared to Standard Jars
• No Pipe Movement Required, Reducing Coiled Tubing Fatigue
• High-Frequency Impact Force
• Upward & Downward Impact
• Can be Configured as a Single-Acting or Dual-Acting Tool
• Can be Operated Using Various Fluids
Tool Specifications
Tool OD (in) 2.015”
Up Hammer Length (in) 28”
Down Hammer Length (in) 32”
Accelerator Length (in) 48”
Tool Connections 1½” AMMT Box x Pin
Minimum Required Load 500 lbs
Flow Range 10-40 GPM
Optimum Operating Pressure 800-1000 psi
Operating Pressure Rating 500-3000 psi
Impact Force (Down) 14,000 lbs
Impact Force (Upward) 21,000 lbs
Tensile Yield Strength 80,000 lbs
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Hydraulic Tubing End Locator
The Hydraulic Tubing End Locator (TEL) give the operator the ability to correlate tool string depth by locating on either the tubing entry guide or a nipple profile within the well bore. As the tool is hydraulically operated, it can be functioned multiple times to ensure accurate depth correlation.
Flow through the tool creates the required hydraulic pressure to activate the locating arms. An over-pull will be observed when the tool is pulled through a restriction such as a nipple profile or when re-entering the production tubing. The locating arms will collapse when a predetermined force is applied. The pull force required is variable depending on pump rate and pressure.
The locating arms will retract to the tool OD when flow through tool has stopped. A safety shear release feature is incorporated in the unlikely event that the spring does not fully retract the locating arms or can also be used to de-activate the tool when it is no longer required.
Design Features
• Short & Compact Design
• Wide “Tag” Range For Each Tool
• Simple Adjustment For Tubing or Nipple Profile Size
• Reliable, Repeatable Operation
• Emergency Shear-Out Feature
• Variable Nozzle Sizes and Shear Ratings
• Simple Field-Redress Capability
Tool Specifications
Tool OD (in) 2.130” 2.880”
Connections 1½” AMMT 2-3/8” PAC DSI
Tag Range Up to 5” tubing Up to 7” tubing
Torsional Strength (ft-lbs) 750 ft/lbs 1,900 ft/lbs
Tensile Strength (lbs) 63,000 lbs 113,800 lbs
Overall Length (ft) 2.50’ 2.28’
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Torque- Through
Knuckle Joint
Tool Specifications
The Well Intervention Products & Services’ Torque-Through Knuckle Joint has been designed to provide a Coiled Tubing Bottom Hole Assembly with additional movement and flexibility.
This additional flexibility is often required when the BHA is ran through a restriction or the wellbore has a high degree of deviation.
The Torque-Through design enables the transmission of rotational forces through the Knuckle Joint to other BHA components below. The Torque- Through Knuckle Joint can also be used in centralising Fishing BHAs over fish necks.
The Knuckle Joint provides a 10° angle of deflection and pressure integrity is maintained across this range by internal pressure sealing. The large Through- Bore allows the passage of drop-balls to tools below the Knuckle Joint.
Design Features
• Pressure Integrity
• 10° Angle of Deflection
• Torque-Through Capability
• Large Through-Bore to Enable Passage of Drop-Balls
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yield values shown are for standard service tools
Tool OD Tensile Yield Torsional Yield Pressure Rating Deflection Angle Standard Connections
Ø1-5/8” 35,000 lbs 400 ft-lbs 5,000 psi 12° 1.000” AMMT
Ø1-1/16” 36,000 lbs 440 ft-lbs 5,000 psi 12° 1.000” AMMT
Ø2-1/8” 75,000 lbs 1,050 ft-lbs 5,000 psi 10° 1-½” AMMT
Ø2-7/8” 140,900 lbs 3,100 ft-lbs 5,000 psi 10° 2-3/8” PAC DSI
Ø3-1/8” 165,500 lbs 3,1000 ft-lbs 5,000 psi 10° 2-3/8” PAC DSI
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Hydraulic Kick- Over Knuckle Joint
Hydraulic Kick-Over Knuckle Joint has been designed to provide a method of deflecting Coiled Tubing Bottom Hole Assembly from the straight line of the tool string.
The tool is activated by increasing the pump rate through the Coiled Tubing. This activates a piston within the tool and a kick-over of 12° is achieved.
The Hydraulic Kick-Over Knuckle Joint has many useful applications. It provides a standard BHA with flexibility which can assist in passing through wellbore restrictions. Additionally, in conjunction with Indexing Tools, lateral sections of a wellbore may be found and entered. This combination of tools is also useful in locating fish in larger diameter wellbores. Pressure integrity and a large Through-Bore are features of this tool which also allow off-centre jetting operations to be performed. They also ensure the safe passage of drop-balls and treatment fluid.
Design Features
• Pressure Integrity
• 12° Angle of Deflection
• Hydraulically Operated
• Torque-Through Capability
• Large Bore-Through to Enable Passage of Drop-Balls
• May be Repeatedly Operated as Required During Deployment
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
Tool Specifications
Tool OD Tensile Yield Torsional Yield Pressure Rating Deflection Angle Standard Connections
Ø1-5/8” 35,000 lbs 400 ft-lbs 5,000 psi 12° 1.000” AMMT
Ø1-1/16” 39,250 lbs 490 ft-lbs 5,000 psi 12° 1.000” AMMT
Ø2-1/8” 68,575 lbs 1,200 ft-lbs 5,000 psi 12° 1-½” AMMT
Ø2-½” 90,000 lbs 1,500 ft-lbs 5,000 psi 12° 1-½” AMMT
Ø2-7/8” 109,750 lbs 2,100 ft-lbs 5,000 psi 12° 2-3/8” PAC DSI
Ø3-1/8” 128,600 lbs 2,400 ft-lbs 5,000 psi 12° 2-3/8” PAC DSI
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Knuckle Joint
Tool Specifications
The Well Intervention Knuckle Joint has been designed to provide a Coiled Tubing Bottom Hole Assembly with additional movement and flexibility. This additional flexibility is typically required when the BHA is ran through a restriction or the wellbore has a high angle of deviation.
The Knuckle Joint provides a 10° angle of deflection and pressure integrity is maintained across this range by internal pressure sealing. The large Through- Bore allows the safe passage of drop-balls to tool below the Knuckle Joint.
Design Features
• Pressure Integrity
• 10° Angle of Deflection
• Torque-Through Capability
• Large Through-Bore to Enable Passage of Drop-Balls
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yeild values shown are for standard service tools
Tool OD Connections Max Catch Size Pressure Rating Deflection Angle
Standard Connections
Ø1-11/16” 55,000 lbs N/A 5,000 psi 10° 1.000” AMMT
Ø2-1/8” 80,500 lbs N/A 5,000 psi 10° 1-½” AMMT
Ø2-3/8” 88,650 lbs N/A 5,000 psi 10° 1-½” AMMT
Ø2-7/8” 109,500 lbs N/A 5,000 psi 10° 2-3/8” PAC DSI
Ø3-1/8” 169,750 lbs N/A 5,000 psi 10° 2-3/8” PAC DSI
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Hydraulic Indexing Tool
The Hydraulic Indexing Tool is designed to provide slow, controlled rotation of Coiled Tubing BHA.
At the end of each cycle, the torque induced is mechanically locked into the tool allowing the piston to return to its initial position. This cycling process can be repeated as often as required, simply by increasing and decreasing the fluid through the tool.
By simply increasing the flow rate through the nozzle within the tool, the back pressure created moves a hydraulic piston linearly downwards within the tool. This movement is transferred into a rotary motion, turning the lower end of the tool in small rotational incremenents an unlimited number of times
Design Features
• Slow, Controlled Rotation of Coiled Tubing BHA
• Torque Mechanically Locked Into the Tool After Each Stroke
• Simple to Redress
• Pressure Drop on Surface Following Each Cycle
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yield values shown are for standard service tools
Tool Specifications
Tool OD Tensile Yield Torsional Yield Pressure Rating Standard Connections
Ø2-1/8” 53,000 lbs 830 ft-lbs 5,000 psi 1-½” AMMT
Ø2-7/8” 73,300 lbs 960 ft-lbs 5,000 psi 2-7/8” PAC DSI
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Mechanical Indexing Tool
The Mechanical Indexing Tool from Reservoir Group Well Intervention Products & Services is designed to provide controlled, incremental rotation of a Coiled Tubing BHA without the need to pump through the coiled tubing This is particularly useful when used above Fishing and Debris Removal Tools. The tool is functioned by setting weight down on the BHA & then picking up. This leads to the lower collar of the tool indexing at a pre-determined angle. At the end of each stroke, the torque induced is mechanically locked in position by a spring-loaded piston. Indexing can be repeated as often as desired.
Design Features
• Slow, Controlled Rotation of Coiled Tubing BHA
• Adjustable Angle Index
• Torque Mechanically Locked After Tool Indexes
• Lateral-Entry Operations When Used in Conjunction With Hydraulic Kick-Over Knuckle Joint
• Rotational Movement Can Assist Location of External Fish Necks
Notes
• Other sizes & connections available upon request
• Standard & H2S service versions available
• Yield values shown are for standard service tools
Tool Specifications
Tool OD Tensile Yield Torsional Yield Set-Down Load to Index
Rotational Increment
Standard Connections
Ø2-1/8” 80,000 lbs 1,100 ft-lbs 220 lbs 20° 1-½” AMMT
Ø2-7/8” 122,000 lbs 2,700 ft-lbs 220 lbs 20° 2-3/8” PAC DSI
Ø3-1/8” 185,000 lbs 4,350 ft-lbs 220 lbs 20° 2-3/8” PAC DSI
Ø5.000” 300,000 lbs 11,000 ft-lbs 300 lbs 12° 3-½” IF Box x Pin
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Hydraulic Tubing Cutter- 3 Blade
The Hydraulic Tubing Cutter is a 3-bladed, hydraulically-activated cutting device used to cut down-hole production tubing, casing and drill pipe. The device provides a safe alternative to chemical and explosive cutters. The tool is ran in conjunction with a down-hole motor on Jointed Pipe or Coiled Tubing. A high expansion hydraulic anchor is typically included in the cutting assembly to prevent any movement if the cutter during activation - a common cause of failure. The tool incorporates a dual-activation piston which increases the axial load on the cutter blades, ensuring a clean and efficient cut.
Circulation through the jet sub creates the internal pressure required to shift the dual-piston and blade cams, forcing the cutter blades to expand. The jet sub incorporates interchangeable nozzles to adjust the flow rate required to achieve the desired activation pressure. Upward-facing jets help clean the cut area while also cooling the cutter blades. On completion of the cut, the spring-loaded blade-return mechanism ensures the cutter blades are returned to the “run-in” position and retained within the body of the tool.
The cutter blades can be dressed with a variety of cutting structures, with each set of blades purpose-built and designed to suit the particular size and grade of tubing/ casing to be cut.
Design Features • Dual-Activation Piston for Clean & Efficient Cut
• Three-Blade Design for Maximum Stability
• Blades Fully Retracted & Retained Within the Tool
• Variety of Cutting Structures to Suit All Material Grades
• Interchangeable Nozzles
• Fully Field Re-Dressable
Tool Specifications
Tool OD (in) 1-11/16” 2-1/8” 2-7/8”
Connection 76,000 lbs 1½” AMMT 2-3/8” PAC DSI
Tubing / Casing Size (in) Up to 3½” Up to 5 “ Up to 7”
Activation Pressure (psi) 550 psi 350 psi 400 psi
Tensile Strength (lbs) 56,000 lbs 80,000 lbs 155,000 lbs
Overall Length (ft) 2.57’ 2.68’ 2.80’
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
FRAC Tool Memory Gauge Carrier
The ITCO Spear is a compact design used to engage the fish internally. The Field-Proven and reliable design provides the strongest tool available to internally engage and pull a fish.
Various grapple sizes are available for each tool to catch a range of tubing sizes or fish IDs. Pack-off assemblies are also available for most ITCO spears to allow circulation through the fish, if required.
The ITCO spear can be used for Coiled Tubing or Jointed Pipe operations. When the tool is ran on Jointed Pipe or in certain Coiled Tubing operations, the spear can be released from the fish with right-hand rotation.
Features and Benefits
• Uninterrupted Well Flow, Due to Non-Intrusive Sensor Deployment
• Full-Bore Flow Area Through ID and Tool
• Monitors Tubing and/ or Annulus Pressure
• Provides Maximum Tensile Strength for Gauge Carriers
• Non-Intrusive Down-Hole Pressure Monitoring During FRACs or Other Stimulation Work
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
FRAC Tool Memory Gauge Carrier
Carrier Specifications
Gauge Type Sensing Fishneck Thread OD ID OAL Material Burst Collapse
Dual Internal NO 4-1/2 PH6 15.50#
5.56” 3.74” 38” 4140 p110
20 ksi 6 ksi
Memory Gauge Specifications
Pressure Temperature Memory
Max. gauge press
20 kpsi Maximum temp.
177 °C Sample Interval 1 second to 1 hour
Sensor type Peizo-resistive Accuracy ±0.6 °C Capacity 500,000 data points
Accuracy ±0.050% Full scale
Repeatability ±0.2 °C -
Long term stability
0.1% full scale Resolution 0.0001% full scale
-
Drift < 3 psi per year Power -
Resolution 0.0003% Battery type AA Lithium -
Max. external press
25 ksi* Operating volt- age
3.2 to 4.6 volt -
* For gauge assembly ONLY- not for the carrier
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Line Management System
The Line Management System (LMS) is developed to provide our customers with a cost-effective solution for managing wellsite information during logging operations. The self-contained unit incorporates a “Real-Time” clock and has the capability to display and record depth, speed, tension and data from client-specific instrumentation interfaced to the remaining analog input channels.
The LMS can be operated in a stand-alone mode or in combination with a Windows-compatible PC. In stand-alone mode all data is recorded to non-volatile memory. Data can be retrieved using a standard compact flash memory card, or the data can be transferred to a PC using the USB or Serial port interface. The LMS can also be coupled with a PC to form a “Real- Time” Data Acquisition System (DAS) capable of displaying and processing information in “Real-Time”.
The flexible configuration allows the LMS to be utilized as a depth/ time recorder with memory-based logging tools; a wellsite monitoring system recording tension, depth, speed, casing & tubing pressure; or a valued-priced, three-channel “Real-Time” DAS for SRO Logging.
Applications
• Depth Recorder for Memory-Based Logging
• Electronic Depth Recorder
• Simple, three-channel “Real-Time” Logging System
• Managing Wellsite Events/ Logs
• Monitoring Wireline Operations
Design Features
• Differential Quadrature Encoder Interface
• In-line tension device or hydraulic load cell
• (3) 4- 20 mA inputs
• Easy to read display
• Large memory capacity
• User configurable software
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Line Management System
Enclosure
Environment Durable water resistant Pelican case
Dimensions 5” deep x 11” wide x 10” long
Weight 2 lbs
Operating temperature -30°C to 60°C* (*Operation below -20°C requires the use of non-rechargeable batteries)
Power Requirements
Voltage 12 V
Current 100 mA
Battery Rechargeable battery pack 30hrs standard. (60hrs with the extended pack)
Memory
Standard 8 MB
Optional removable memory card (MMC) (for transferring data)
64 MB
Communications RS-232 or USB (115K Baud)
Software Compatibility Windows 98/ME/NT/2000/XP
Display
Type Bright
Number Lines LCD 4 Lines
Refresh Rate 2 times/second
Data Acquisition Inputs
Depth + 5V Single or Differential Quadrature
Number of external channels 3 channels
Analog Input 4-20 mA
A/D resolution 24 bit
Sampling speed Adjustable-10 samples/seconds (max)
Information Displayed (Standalone) Information Displayed Real Time (PC
Depth Speed Real Time Clock Tension
User Configurable
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Push/Pull Memory Tool
Knowledge of the down-hole loads provides valuable insight into Coiled Tubing drilling/ milling, fishing or any other Coiled Tubing operation.
In highly-deviated and horizontal wells, indications of load-at-surface will not be an accurate indication of what is actually happening down-hole.
With the push/ Pull Memory Tool, a log of forces experienced down-hole can be compared to surface measurements and operating procedures. After each run the data collected can be downloaded to a PC for analysis. The standard tool also incorporates a torque sensor. Temperature and pressure are also optional.
Note: This tool is also available in 1-11/16” & 2-1/8” OD
Tool Specifications
Design Features
• Measures Tension, Compression & Torque
• 0.70” Bore-Through Tool
• Variable Sampling Rate
• Bend Insensitive
Outside Diameter (in) 2.875”
Inside Diameter (in) 0.70”
Make-up Length (mm) 20 Kpsi
Max. Operating Temperature (C) 135
Max. Operating Pressure (psi) 10,000
Max. Differential Pressure (psi) 5,000
Max. Tensile Rating (lbf) 60,000
Max. Compression Rating (lbf) 15,000
Max Torque Rating (ft-lbf) 2,500
Tension / Compression Range (lbf) -10,000 to 25,000
Torque Range (ft-lbf) +/- 1,200
Max. Sampling Rate (sec) 1
Max. Number of Samples 400,000
Typical Battery Life (hrs) 40
Sampling Time @ 1 sec Rate (hrs) 9
Connections 2-3/8” PAC DSI
88 Information contained in the document is to the best of our knowledge accurate but can be confirmed with any enquiry.
Wellhead Pressure Recorder
Tool Specifications
Well Intervention Products & Services’ Wellhead Pressure Recorder (WHPR) provides a cost-effective solution to monitoring well pressures. The system can be configured to measure up to two independent pressure sensors. Each pressure stem is independently calibrated from the main body. The WHPR is equipped with 2 Sapphire pressure sensors which allows the user to configure the system for 2 different wells or use one pressure stem as a back-up.
The system utilizes an intelligent, primary lithium, non-restricted-for- transport battery pack. This power system provides the user with the necessary feedback to ensure that sufficient power is available for the duration of the survey. With memory capable of storing 2 million samples, when fully charged, this low power WHPR has the ability of acquiring data for over one year. For more information about the WHPR, please contact your Reservoir
Group Representative today.
Design Features
• Approved for Intrinsically Safe, Ex ia IIB T3
• Independently Calibrated Pressure Stems
• Record 2 Wells With One WHPR
• Superior Data Quality/ Stability
• Programmable Sample Rates (1 Sample/ Sec Max)
• 2 Million Sample Memory Capacity
• Intelligent Primary Lithium Battery Pack
• Non-Restricted-For Transport
• Low Power Consumption
• LCD Character Display (Magnetic Switch Activation)
• Lightweight & Compact in Size Makes for Easy Handling & Installation
• High Speed Data Transfer Interface (USB 2.0)
Pressure Sensor
Sensor Type 2 x Sapphire
Range 10,000 psi
Accuracy 0.03% Full-Scale
Resolution 0.0003% Full-Scale
Drift < 3 psi / year
Max Temperature 70°C
Data Acquisition
Memory Capacity 2,000,000 samples
Fastest sample rate 1 sample / sec
Programmable Sample Modes Up to 15 different intervals
Power Lithium dedicated I.S. Battery, non-restricted for transport
WELL INTERVENTION LOCATIONS
Adkins, TX, USA Well Intervention Services
Midland, TX, USA Well Intervention Services
Minot, ND, USA Well Intervention Services
Calgary, AB, Canada Well Intervention Services
Grande Prairie, AB, Canada Well Intervention Services
Red Deer, AB, Canada Well Intervention Services
Aberdeen, UK Well Intervention Services (Specializing in Off-Shore Operations)
Inverkeithing, UK Well Intervention Products (Manufacturing)
Assen, Netherlands Well Intervention Services
Hat Yai, Thailand Well Intervention Services
Vung Tau City, Vietnam Well Intervention Services
Manama, Bahrain Well Intervention Services
Safat, Kuwait Well Intervention Services
Saudi Arabia Well Intervention Services
RESERVOIR GROUP GLOBAL LOCATIONS
Disclaimer of Liability: This information is provided for general information purposes only and is
believed to be accurate as of the date hereof; however, Reservoir Group. and its affiliates do not make any
warranties or representations of any kind regarding the information and disclaim all express and implied
warranties or representations to the fullest extent permissible by law, including those of merchantability,
fitness for a particular purpose or use, title, non-infringement, accuracy, correctness or completeness of
the information provided herein. All information is furnished “as is” and without any license to distribute.
The user agrees to assume all liabilities related to the use of or reliance on such information. RESERVOIR
GROUP AND ITS AFFILIATES SHALL NOT BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, PUNITIVE,
EXEMPLARY OR CONSEQUENTIAL DAMAGES FROM ANY CAUSE WHATSOEVER INCLUDING BUT NOT
LIMITED TO ITS NEGLIGENCE.
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